def drawPlayAgainMenu(DISPLAYSURF):
play_again_option = Option(DISPLAYSURF, WHITE, font, "PLAY AGAIN?", (config.display_x // 2 - 100, config.display_y // 2 - 100))
while (True):
play_again_option.draw()
for option in playAgainMenuOptions:
option.draw()
drawStatsMenu(DISPLAYSURF)
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
for option in playAgainMenuOptions:
if option.rect.collidepoint(pygame.mouse.get_pos()):
option.hovered = True
#sound_hover_menu_item.play()
if event.type == MOUSEBUTTONUP:
# play sound
sound_select_menu_item.play()
if option.text == "YES":
os.execl(sys.executable, sys.executable, *sys.argv)
return False
if option.text == "NO":
pygame.quit()
sys.exit()
if option.text == "MAIN MENU":
drawMainMenu(DISPLAYSURF)
option.hovered = False
else:
option.hovered = False
pygame.display.update()
return True
def init_db():
connection = SQLEngine.connect()
context = MigrationContext.configure(connection)
current_revision = context.get_current_revision()
logger.boot('Database revision: %s', current_revision)
if current_revision is None:
DataBase.metadata.create_all(SQLEngine)
config = Config(ALEMBIC_CONFIG)
script = ScriptDirectory.from_config(config)
head_revision = script.get_current_head()
if current_revision is None or current_revision != head_revision:
logger.boot('Upgrading database to version %s.', head_revision)
command.upgrade(config, 'head')
from option import Option
session = Session()
options = session.query(Option).first()
if options is None:
options = Option()
options.version = head_revision
session.add(options)
from pulse import Pulse
pulse = session.query(Pulse).first()
if pulse is None:
pulse = Pulse()
session.add(pulse)
session.commit()
def init_db():
connection = SQLEngine.connect()
context = MigrationContext.configure(connection)
current_revision = context.get_current_revision()
logger.boot('Database revision: %s', current_revision)
#if current_revision is None:
# from option import Option
# DataBase.metadata.create_all(SQLEngine)
# session = Session()
# options = Option()
# options.date_created = datetime.now()
# options.version = None
# #options.port = 4400
# #options.wizlock = False
# session.add(options)
# session.commit()
# logger.boot('Database created and initialized.')
config = Config(ALEMBIC_CONFIG)
script = ScriptDirectory.from_config(config)
head_revision = script.get_current_head()
if current_revision is None or current_revision != head_revision:
logger.boot('Upgrading database to version %s.', head_revision)
command.upgrade(config, 'head')
from option import Option
session = Session()
options = session.query(Option).first()
if options is None:
options = Option()
options.date_created = datetime.now()
session.add(options)
logger.boot('Database created and initialized.')
options.version = head_revision
session.commit()
def __new__(cls):
if cls.__instance is None:
i = object.__new__(cls)
i.SQLEngine = SQLEngine
i.DataBase = DataBase
i.Session = Session
i.connection = SQLEngine.connect()
i.context = MigrationContext.configure(i.connection)
i.current_revision = i.context.get_current_revision()
logger.boot('Database revision: %s', i.current_revision)
i.config = Config(ALEMBIC_CONFIG)
i.script = ScriptDirectory.from_config(i.config)
i.head_revision = i.script.get_current_head()
if i.current_revision is None or i.current_revision != i.head_revision:
logger.boot('Upgrading database to version %s.', i.head_revision)
command.upgrade(i.config, 'head')
from option import Option
from log import Log
session = Session()
options = session.query(Option).first()
if options is None:
options = Option()
session.add(options)
options.version = i.head_revision
session.commit()
i.current_revision = i.head_revision
cls.__instance = i
h = SQLAlchemyHandler()
logger.addHandler(h)
return cls.__instance
def get_option(self, model, subject):
option = Option(subject.uri)
statement = RDF.Statement(subject,
RDF.Uri("http://okfnpad.org/flow/0.1/node"),
None)
uri = None
for s in model.find_statements(statement):
if s.object.is_resource():
uri = s.object.uri
option.node = uri
statement = RDF.Statement(subject,
RDF.Uri("http://okfnpad.org/flow/0.1/text"),
None)
for s in model.find_statements(statement):
if s.object.is_literal():
option.text = s.object.literal_value['string']
statement = RDF.Statement(subject,
RDF.Uri("http://okfnpad.org/flow/0.1/query"),
None)
for s in model.find_statements(statement):
if s.object.is_literal():
option.query = s.object.literal_value['string']
return option
def generateAllowedList(self, possibility, guess, fullColors):
guessSet = set(guess)
allowed = []
dummy = iter(possibility)
skip = False
for place in range(self.width):
if guess[place] in fullColors:
allowed.append([guess[place]])
else:
d = next(dummy)
if d == -1:
allowed.append(list(set(range(self.height)) - guessSet))
else:
color = d
if color == guess[place]:
skip = True
break
else:
#halfColor at a different place it was in the guess
allowed.append([color])
if not skip:
option = Option(self.width, self.height)
option.setDataByAllowedList(allowed)
return option
else:
return None
def sete(self, name, opt):
"""Sets option `name` to dictionary or Option `opt`."""
if not opt.has_key('type'):
opt['type'] = 'Empty'
if not opt.has_key('handle'):
opt['handle'] = name
if isinstance(opt, dict):
opt = Option(**opt)
opt.set_base_kid(self.kid_base)
self.desc[name] = opt
return True
def get_option():
args = parse_args()
option = Option()
option.f = convert_name_to_number(args.f)
option.t = convert_name_to_number(args.t)
# not implemented
if args.list:
option.list = args.list
option.a = False
return option
def set_value(self, name, value, strict=True):
name_parts = name.split(".", 1)
prefix = name_parts[0]
try:
candidate = getattr(self, prefix)
except KeyError:
if strict:
raise
candidate = Option(name)
setattr(self, prefix, candidate)
candidate_type = type(candidate)
if candidate_type == Namespace:
candidate.set_value(name_parts[1], value, strict)
else:
candidate.set_value(value)
def __init__(self, parent=None):
QtGui.QWidget.__init__(self, parent)
self.setWindowTitle('ConvertAll')
modPath = os.path.abspath(sys.path[0])
if modPath.endswith('.zip'): # for py2exe
modPath = os.path.dirname(modPath)
iconPathList = [iconPath, os.path.join(modPath, 'icons/'),
os.path.join(modPath, '../icons')]
self.icons = icondict.IconDict()
self.icons.addIconPath(filter(None, iconPathList))
try:
QtGui.QApplication.setWindowIcon(self.icons['convertall_med'])
except KeyError:
pass
self.helpView = None
self.findDlg = None
self.option = Option('convertall', 20)
self.option.loadAll(optiondefaults.defaultList)
try:
num = ConvertDlg.unitData.readData()
print '%d units loaded' % num
except unitdata.UnitDataError, text:
QtGui.QMessageBox.warning(self, 'ConvertAll',
'Error in unit data - %s' % text)
sys.exit(1)
def __init__(self, arg):
self.curl = pycurl.Curl()
self.option = Option()
self.option.parse(arg)
self.log = Log(self.option.isVerboseMode())
self.datas = []
config = json.loads(open(Epilader.JSON_CONF).read())
self.login = config["login"]
self.password = config["password"]
self.notes = Notes(config["projets"], config["modules"])
def add_option(self, name, *args, **kwargs):
"""add an option to the namespace. This can take two forms:
'name' is a string representing the name of an option and the
kwargs are its parameters, or 'name' is an instance of an Option
object
"""
if isinstance(name, Option):
an_option = name
name = an_option.name
else:
an_option = Option(name, *args, **kwargs)
current_namespace = self
name_parts = name.split('.')
for a_path_component in name_parts[:-1]:
if a_path_component not in current_namespace:
current_namespace[a_path_component] = Namespace()
current_namespace = current_namespace[a_path_component]
an_option.name = name_parts[-1]
setattr(current_namespace, an_option.name, an_option)
def joinOptions(self, newOptions):
joinedOptions = []
print("joining with new options:")
self.printOptions(newOptions)
for option in self.options:
for newOption in newOptions:
joinedOption = Option.newFromMerge(option, newOption)
if joinedOption.isValid():
joinedOptions.append(joinedOption)
joinedOptions = self.cleanOptions(joinedOptions)
self.options = joinedOptions
print("results in:")
self.printOptions(joinedOptions)
def __init__(self, parent=None):
QtGui.QWidget.__init__(self, parent)
self.setWindowTitle('ConvertAll')
icons.setupIcons()
self.setWindowIcon(icons.iconDict['convert'])
self.helpView = None
self.findDlg = None
self.option = Option('convertall', 20)
self.option.loadAll(optiondefaults.defaultList)
try:
ConvertDlg.unitData.readData()
except unitdata.UnitDataError, text:
QtGui.QMessageBox.warning(self, 'ConvertAll',
'Error in unit data - %s' % text)
sys.exit(1)
def _process_option(self, node, args):
'''Return Option, that contain values produced using args comed from step declaration'''
opt = Option(node.attrib.get('repr'))
name = node.attrib['name']
if 'default' in node.attrib:
opt.set_default_val(Variant.from_string(node.attrib['default'], node.attrib['type']))
elif 'default_ref' in node.attrib:
ref = node.attrib['default_ref'].strip()
if ref in self._inputs:
opt.set_default_val(self._inputs[ref].get())
else:
raise RuntimeError('Reference to currently undefined symbol: ' + ref)
else:
for child in node: #check by RELAXNG
if child.tag == 'default':
opt.set_default_val(self._eval_expression(child))
if name in args:
opt.set_val(args[name])
return opt
def __init__(self):
labels = ['init', 'move', 'check', 'finish']
Option.__init__(self, labels, 'finish')
def addCommonOptions(self):
help = Option(["--help"], "{}")
version = Option(["--version"], "{}")
self.options.add(help)
self.options.add(version)
user_info['os'] = 'Windows'
elif platform.system() == 'Linux':
user_info['os'] = 'Linux'
elif platform.system() == 'Darwin':
user_info['os'] = 'Darwin'
user_info['handle'] = input('* Codeforces Handle: ')
mkdir = input('* mkdir option [true/false]: ')
while True:
if mkdir == 'true' or mkdir == 'false':
break
mkdir = input('* mkdir option [true/false]: ')
if mkdir == 'false':
user_info['mkdir'] = False
if mkdir == 'true':
user_info['mkdir'] = True
user_info['dir_name'] = input('* directory name format: ')
# user_info['dir_name'] = [CONTEST]
# user_info['source_name'] = input('* source name format: ')
user_info['source_name'] = "[CONTEST]-[INDEX]: [TITLE]"
crawler = Crawler()
option = Option(user_info)
Main(crawler, option, user_info).run()
except KeyboardInterrupt:
print('\n* bye\n')
def __init__(self):
labels = ['init', 'turn', 'ahead', 'turnback', 'goback', 'finish']
Option.__init__(self, labels, 'finish')
self.target_pose = 0
class Main(ShowBase, FSM):
"""Main function of the application
initialise the engine (ShowBase)"""
def __init__(self):
"""initialise the engine"""
ShowBase.__init__(self)
FSM.__init__(self, "FSM-Game")
#
# BASIC APPLICATION CONFIGURATIONS
#
# disable pandas default camera driver
self.disableMouse()
# set background color to black
self.setBackgroundColor(0, 0, 0)
# set antialias for the complete sceen to automatic
self.render.setAntialias(AntialiasAttrib.MAuto)
# shader generator
render.setShaderAuto()
# Enhance font readability
DGG.getDefaultFont().setPixelsPerUnit(100)
#
# CONFIGURATION LOADING
#
# load given variables or set defaults
# check if audio should be muted
mute = ConfigVariableBool("audio-mute", False).getValue()
if mute:
self.disableAllAudio()
else:
self.enableAllAudio()
# check if particles should be enabled
particles = ConfigVariableBool("particles-enabled", True).getValue()
if particles:
self.enableParticles()
base.width = self.pipe.getDisplayWidth()
base.height = self.pipe.getDisplayHeight()
# check if the config file hasn't been created
if not os.path.exists(prcFile):
# get the displays width and height
w = self.pipe.getDisplayWidth()
h = self.pipe.getDisplayHeight()
# set window properties
# clear all properties not previously set
base.win.clearRejectedProperties()
# # setup new window properties
props = WindowProperties()
# # # Fullscreen
props.setFullscreen(True)
# # # set the window size to the screen resolution
props.setSize(w, h)
# # request the new properties
base.win.requestProperties(props)
pass
elif base.appRunner:
# As when the application is started as appRunner instance
# it doesn't respect our loadPrcFile configurations specific
# to the window, hence we need to manually set them here.
for dec in range(mainConfig.getNumDeclarations()):
#TODO: Check for all window specific variables like
# fullscreen, screen size, title and window
# decoration that you have in your configuration
# and set them by your own.
if mainConfig.getVariableName(dec) == "fullscreen":
if not mainConfig.getDeclaration(dec).getBoolWord(0): break
# get the displays width and height
w = self.pipe.getDisplayWidth()
h = self.pipe.getDisplayHeight()
# set window properties
# clear all properties not previously set
base.win.clearRejectedProperties()
# setup new window properties
props = WindowProperties()
# Fullscreen
props.setFullscreen(True)
# set the window size to the screen resolution
props.setSize(w, h)
# request the new properties
base.win.requestProperties(props)
break
pass
# automatically safe configuration at application exit
base.exitFunc = self.__writeConfig
# due to the delayed window resizing and switch to fullscreen
# we wait some time until everything is set so we can savely
# proceed with other setups like the menus
if base.appRunner:
# this behaviour only happens if run from p3d files and
# hence the appRunner is enabled
taskMgr.doMethodLater(0.5,
self.postInit,
"post initialization",
extraArgs=[])
else:
self.postInit()
def postInit(self):
#
# initialize game content
#
# camera
base.camLens.setNearFar(1.0, 10000)
base.camLens.setFov(75)
a = 33
base.camera.setPos(0, -a, a + 3) #80)
# collision
base.cTrav = CollisionTraverser("base collision traverser")
base.cHandler = CollisionHandlerEvent()
base.cPusher = CollisionHandlerPusher()
base.cQueue = CollisionHandlerQueue()
base.globalClock = ClockObject.getGlobalClock()
base.cHandler.addInPattern('%fn-into-%in')
base.cHandler.addOutPattern('%fn-out-%in')
base.cHandler.addAgainPattern('%fn-again-%in')
# ai init
base.AIworld = AIWorld(render)
# 3d manager
base.audio3d = Audio3DManager(base.sfxManagerList[0], camera)
# manager
self.archiveManager = ArchiveManager()
self.mapManager = MapManager()
self.initHeroInfo = None
# Lock
self.lock = threading.Lock()
self.gameThread = None
self.filters = CommonFilters(base.win, base.cam)
# UI
self.menu = Menu()
self.option = Option()
self.archive = Archive()
self.death = Death()
# self.oobe()
#self.Archive_status = 0
# self.menuMusic = loader.loadMusic("assets/audio/menuMusic.ogg")
# self.menuMusic.setLoop(True)
# self.fightMusic = loader.loadMusic("assets/audio/fightMusic.ogg")
# self.fightMusic.setLoop(True)
# base.audio3d = Audio3DManager(base.sfxManagerList[0], camera)
self.titleVideo, self.titleCard = loadVideo('title.mp4')
self.isInited = False
self.isSkip = False
self.isRenew = False
#
# Event handling
#
self.accept("escape", self.__escape)
#
# Start with the menu
#
self.request("Menu")
#
# FSM PART
#
def enterMenu(self):
show_cursor()
self.accept("Menu-Game", self.request, ["Archive"])
self.accept("Menu-Option", self.request, ["Option"])
self.accept("Menu-Quit", self.quit)
self.menu.show()
def exitMenu(self):
self.ignore("Menu-Game")
self.ignore("Menu-Option")
self.ignore("Menu-Quit")
self.menu.hide()
def enterOption(self):
show_cursor()
self.accept("ChangeVolume", self.ChangeMusic)
self.accept("ChangeSound", self.ChangeSound)
self.option.show()
def exitOption(self):
self.ignore("ChangeVolume")
self.ignore("ChangeSound")
self.option.hide()
def enterArchive(self):
show_cursor()
self.accept("LoadArchive", self.LoadArchive)
self.accept("DeleteArchive", self.DeleteArchive)
self.accept("UpdateArchive", self.UpdateArchive)
self.accept("NewGame", self.NewGame)
self.UpdateArchive()
def exitArchive(self):
self.archive.hide()
self.ignore("LoadArchive")
self.ignore("DeleteArchive")
self.ignore("UpdateArchive")
self.ignore("NewGame")
def enterPause(self):
# self.accept("Pause-Newgame")
# self.accept("Pause-Option")
# self.accept("Pause-Back")
show_cursor()
def exitPause(self):
self.ignore("Pause-Newgame")
self.ignore("Pause-Option")
self.ignore("Pause-Back")
def enterInitGame(self):
if Nodebug:
self.titleCard.show()
self.titleVideo.play()
def exitInitGame(self):
if Nodebug:
self.titleCard.hide()
self.titleVideo.stop()
def enterGame(self):
self.accept("hero-death", self.request, ["Death"])
self.accept('game-end', self.request, ['Menu'])
base.messenger.send('game-start', [self.isRenew])
def exitGame(self):
self.ignore('hero-death')
#self.archiveManager.SaveArchive(self.archiveID,MapManager.ToDict(self.mapManager))
pass
def enterDeath(self):
self.mapManager.index = 0 # renew
self.accept("Death-Game", self.NewGame)
self.accept("Death-Menu", self.request, ["Menu"])
self.accept("Death-Quit", self.quit)
self.death.show()
show_cursor()
def exitDeath(self):
self.ignore("Death-Menu")
self.ignore("Death-Quit")
self.death.hide()
#
# FSM PART END
#
@print_func_time
def NewGame(self):
delayTime = self.titleVideo.length()
archiveDir = self.archiveManager.basedir
self.isInited = False
self.request('InitGame')
delayTime = self.titleVideo.length()
if not self.isSkip:
self.timer = threading.Timer(delayTime, self._accept_skip)
self.timer.start()
self.isInited = False
checkThread = threading.Thread(target=self._thread_check, name='check')
checkThread.start()
self.gameThread = threading.Thread(target=self._initGame,
args=(None, archiveDir),
name='newgame')
self.gameThread.start()
def _thread_check(self):
while (not self.isInited or not self.isSkip):
pass
self.isInited = False
self.request('Game')
@print_func_time
def _accept_skip(self):
self.lock.acquire()
try:
self.isSkip = True
finally:
self.lock.release()
def _initGame(self, archive, archivePath):
sTime = time.time()
self.isInited = False
self.mapManager.archivePath = archivePath
#self.filters.setBloom()
if self.mapManager.hero == None:
self.mapManager.loadResource()
self.initHeroInfo = Hero.ToDict(self.mapManager.hero)
self.mapManager.hero.reInit(self.initHeroInfo)
if archive == None:
self.mapManager.genMap()
self.isRenew = True
if not self.isSkip:
self.acceptOnce('enter', self._accept_skip)
else:
self.mapManager.reInit(archive)
self.isRenew = False
if not self.isSkip:
self.acceptOnce('enter', self._accept_skip)
self.isInited = True
@print_func_time
def LoadGame(self):
self.Archive_status = 1
self.request("Archive")
def ChangeMusic(self):
print self.option.slider_volume['value']
def ChangeMusic(self):
base.musicManager.setVolume(self.option.slider_volume['value'] / 100)
def ChangeSound(self):
base.sfxManagerList[0].setVolume(self.option.slider_sound['value'] /
100)
def DeleteArchive(self):
self.archiveManager.DeleteArchive(self.archive.v[0])
self.UpdateArchive()
def LoadArchive(self):
self.archiveID = self.archive.v[0]
archive = self.archiveManager.ReadArchive(self.archiveID)
archiveDir = self.archiveManager.basedir
delayTime = self.titleVideo.length()
self.request('InitGame')
if not self.isSkip:
self.timer = threading.Timer(delayTime, self._accept_skip)
self.timer.start()
self.isInited = False
checkThread = threading.Thread(target=self._thread_check, name='check')
checkThread.start()
self.gameThread = threading.Thread(target=self._initGame,
args=(archive, archiveDir),
name='newgame')
self.gameThread.start()
def UpdateArchive(self):
msg = self.archiveManager.GetArchiveListShortMsg()
self.archive.show(msg)
#
# BASIC FUNCTIONS
#
def __escape(self):
if self.state == "Menu":
self.gameThread = None
self.quit()
elif self.state == "Game":
archive = MapManager.ToDict(self.mapManager)
self.archiveManager.SaveArchive(self.archive.v[0], archive)
self.mapManager.room.request("Idle")
base.musicManager.stopAllSounds()
base.sfxManagerList[0].stopAllSounds()
self.request("Menu")
else:
self.request("Menu")
def quit(self):
"""This function will stop the application"""
self.userExit()
def __writeConfig(self):
"""Save current config in the prc file or if no prc file exists
create one. The prc file is set in the prcFile variable"""
page = None
# These TODO tags are as a reminder for to add any new config
# variables that may occur in the future
#TODO: get values of configurations here
particles = "#f" if not base.particleMgrEnabled else "#t"
volume = str(round(base.musicManager.getVolume(), 2))
mute = "#f" if base.AppHasAudioFocus else "#t"
#TODO: add any configuration variable name that you have added
customConfigVariables = [
"", "particles-enabled", "audio-mute", "audio-volume"
]
if os.path.exists(prcFile):
# open the config file and change values according to current
# application settings
page = loadPrcFile(Filename.fromOsSpecific(prcFile))
removeDecls = []
for dec in range(page.getNumDeclarations()):
# Check if our variables are given.
# NOTE: This check has to be done to not loose our base or other
# manual config changes by the user
if page.getVariableName(dec) in customConfigVariables:
decl = page.modifyDeclaration(dec)
removeDecls.append(decl)
for dec in removeDecls:
page.deleteDeclaration(dec)
# NOTE: particles-enabled and audio-mute are custom variables and
# have to be loaded by hand at startup
# Particles
page.makeDeclaration("particles-enabled", particles)
# audio
page.makeDeclaration("audio-volume", volume)
page.makeDeclaration("audio-mute", mute)
else:
# Create a config file and set default values
cpMgr = ConfigPageManager.getGlobalPtr()
page = cpMgr.makeExplicitPage("{} Pandaconfig".format(appName))
# set OpenGL to be the default
page.makeDeclaration("load-display", "pandagl")
# get the displays width and height
w = self.pipe.getDisplayWidth()
h = self.pipe.getDisplayHeight()
# set the window size in the config file
page.makeDeclaration("win-size", "{} {}".format(w, h))
# set the default to fullscreen in the config file
page.makeDeclaration("fullscreen", "1")
# particles
page.makeDeclaration("particles-enabled", "#t")
# audio
page.makeDeclaration("audio-volume", volume)
page.makeDeclaration("audio-mute", "#f")
# create a stream to the specified config file
configfile = OFileStream(prcFile)
# and now write it out
page.write(configfile)
# close the stream
configfile.close()
from selector import Selector
from parameter import Parameter
from root import Root
import parametertypes
import tileform
from option import Option
root = Root("root",
parameters = [
Parameter("starting_port", tileForm=tileform.msgRouterForm, defaultValue=7000, parameterType=parametertypes.Port, label="Starting Port"),
Selector("tls_config", tileForm=tileform.tlsForm, defaultValue="disabled", label="Choose whether TLS is enabled or not", enumValues=[Option("disabled", "TLS Disabled"), Option("enabled", "TLS Enabled")],
parameters={
"enabled": [
Parameter("cert_pem", pcfFormName="rsa_server_cert", parameterType=parametertypes.CertPem, placeholder="Message Router's Server Certificate"),
Parameter("private_key_pem", pcfFormName="rsa_server_cert", parameterType=parametertypes.PrivateKeyPem),
Parameter("broker_validate_cert_disabled", parameterType=parametertypes.Boolean,visibleInBoshManifest=False),
Parameter("trusted_root_certificates", optional=True, parameterType=parametertypes.Text),
],
}
),
Selector("application_access_auth_scheme", tileForm=tileform.appAccessForm, defaultValue="vmr_internal", enumValues=[Option("vmr_internal", "VMR Internal"), Option("ldap_server", "LDAP Server")]),
Parameter("vmr_admin_password", tileForm=tileform.mgmtAccessForm, parameterType=parametertypes.Password, placeholder="admin password"),
Selector("management_access_auth_scheme", tileForm=tileform.mgmtAccessForm, defaultValue="vmr_internal", enumValues=[Option("vmr_internal", "VMR Internal"), Option("ldap_server", "LDAP Server")],
parameters={
"ldap_server": [
Parameter("ldap_mgmt_read_only_groups", optional=True, placeholder="'cn=readonly,cn=groups,dc=example,dc=com'"),
Parameter("ldap_mgmt_read_write_groups", optional=True, placeholder="'cn=readwrite,cn=groups,dc=example,dc=com'"),
Parameter("ldap_mgmt_admin_groups", optional=True, placeholder="'cn=admin,cn=groups,dc=example,dc=com'")
]
}
),
def __init__(self):
labels = ['init', 'lift_up', 'adj_ev', 'finish']
Option.__init__(self, labels, 'finish')
self.arm_angles = None
self.tar_pos = None
def __init__(self, parent=None):
super().__init__(parent)
self.setWindowTitle('ConvertAll')
modPath = os.path.abspath(sys.path[0])
if modPath.endswith('.zip'): # for py2exe
modPath = os.path.dirname(modPath)
iconPathList = [iconPath, os.path.join(modPath, 'icons/'),
os.path.join(modPath, '../icons')]
self.icons = icondict.IconDict()
self.icons.addIconPath([path for path in iconPathList if path])
try:
QApplication.setWindowIcon(self.icons['convertall_med'])
except KeyError:
pass
self.helpView = None
self.basesDialog = None
self.fractionDialog = None
self.option = Option('convertall', 25)
self.option.loadAll(optiondefaults.defaultList)
self.colorSet = colorset.ColorSet(self.option)
if self.option.strData('ColorTheme') != 'system':
self.colorSet.setAppColors()
self.sysFont = self.font()
self.guiFont = None
fontStr = self.option.strData('GuiFont', True)
if fontStr:
guiFont = self.font()
if guiFont.fromString(fontStr):
QApplication.setFont(guiFont)
self.guiFont = guiFont
self.recentUnits = recentunits.RecentUnits(self.option)
try:
num = ConvertDlg.unitData.readData()
except unitdata.UnitDataError as text:
QMessageBox.warning(self, 'ConvertAll',
_('Error in unit data - {0}'). format(text))
sys.exit(1)
try:
print(_('{0} units loaded').format(num))
except UnicodeError:
print('{0} units loaded'.format(num))
self.fromGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.toGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.unitButtons = []
self.textButtons = []
topLayout = QHBoxLayout(self) # divide main, buttons
mainLayout = QVBoxLayout()
mainLayout.setSpacing(8)
topLayout.addLayout(mainLayout)
unitLayout = QGridLayout() # unit selection
unitLayout.setVerticalSpacing(3)
unitLayout.setHorizontalSpacing(20)
mainLayout.addLayout(unitLayout)
fromLabel = QLabel(_('From Unit'))
unitLayout.addWidget(fromLabel, 0, 0)
self.fromUnitEdit = unitedit.UnitEdit(self.fromGroup)
unitLayout.addWidget(self.fromUnitEdit, 1, 0)
self.fromUnitEdit.setFocus()
toLabel = QLabel(_('To Unit'))
unitLayout.addWidget(toLabel, 0, 1)
self.toUnitEdit = unitedit.UnitEdit(self.toGroup)
unitLayout.addWidget(self.toUnitEdit, 1, 1)
self.fromUnitEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.toUnitEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
vertButtonLayout = QVBoxLayout()
vertButtonLayout.setSpacing(2)
mainLayout.addLayout(vertButtonLayout)
self.unitListView = unitlistview.UnitListView(ConvertDlg.unitData)
mainLayout.addWidget(self.unitListView)
self.fromUnitEdit.currentChanged.connect(self.unitListView.
updateFiltering)
self.toUnitEdit.currentChanged.connect(self.unitListView.
updateFiltering)
self.fromUnitEdit.keyPressed.connect(self.unitListView.handleKeyPress)
self.toUnitEdit.keyPressed.connect(self.unitListView.handleKeyPress)
self.unitListView.unitChanged.connect(self.fromUnitEdit.unitUpdate)
self.unitListView.unitChanged.connect(self.toUnitEdit.unitUpdate)
self.unitListView.haveCurrentUnit.connect(self.enableButtons)
self.unitListView.setFocusPolicy(Qt.NoFocus)
textButtonLayout = QHBoxLayout()
textButtonLayout.setSpacing(6)
vertButtonLayout.addLayout(textButtonLayout)
textButtonLayout.addStretch(1)
self.textButtons.append(QPushButton('{0} (^2)'.format(_('Square'))))
self.textButtons.append(QPushButton('{0} (^3)'.format(_('Cube'))))
self.textButtons.append(QPushButton('{0} (*)'.format(_('Multiply'))))
self.textButtons.append(QPushButton('{0} (/)'.format(_('Divide'))))
for button in self.textButtons:
button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
button.setFocusPolicy(Qt.NoFocus)
textButtonLayout.addWidget(button)
button.clicked.connect(self.unitListView.addUnitText)
textButtonLayout.addStretch(1)
unitButtonLayout = QHBoxLayout()
unitButtonLayout.setSpacing(6)
vertButtonLayout.addLayout(unitButtonLayout)
unitButtonLayout.addStretch(1)
self.clearButton = QPushButton(_('Clear Unit'))
self.clearButton.clicked.connect(self.unitListView.clearUnitText)
self.recentButton = QPushButton(_('Recent Unit'))
self.recentButton.clicked.connect(self.recentMenu)
self.filterButton = QPushButton(_('Filter List'))
self.filterButton.clicked.connect(self.filterMenu)
self.unitButtons = [self.clearButton, self.recentButton,
self.filterButton]
for button in self.unitButtons:
button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
button.setFocusPolicy(Qt.NoFocus)
unitButtonLayout.addWidget(button)
unitButtonLayout.addStretch(1)
self.showHideButtons()
numberLayout = QGridLayout()
numberLayout.setVerticalSpacing(3)
mainLayout.addLayout(numberLayout)
statusLabel = QLabel(_('Set units'))
statusLabel.setFrameStyle(QFrame.Panel | QFrame.Sunken)
mainLayout.addWidget(statusLabel)
fromNumLabel = QLabel(_('No Unit Set'))
numberLayout.addWidget(fromNumLabel, 0, 0)
self.fromNumEdit = numedit.NumEdit(self.fromGroup, self.toGroup,
fromNumLabel, statusLabel,
self.recentUnits, True)
numberLayout.addWidget(self.fromNumEdit, 1, 0)
self.fromUnitEdit.unitChanged.connect(self.fromNumEdit.unitUpdate)
self.fromNumEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
self.fromNumEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.fromNumEdit.gotFocus.connect(self.unitListView.resetFiltering)
self.fromNumEdit.setEnabled(False)
equalsLabel = QLabel(' = ')
equalsLabel.setFont(QFont(self.font().family(), 20))
numberLayout.addWidget(equalsLabel, 0, 1, 2, 1)
toNumLabel = QLabel(_('No Unit Set'))
numberLayout.addWidget(toNumLabel, 0, 3)
self.toNumEdit = numedit.NumEdit(self.toGroup, self.fromGroup,
toNumLabel, statusLabel,
self.recentUnits, False)
numberLayout.addWidget(self.toNumEdit, 1, 3)
self.toUnitEdit.unitChanged.connect(self.toNumEdit.unitUpdate)
self.toNumEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
self.toNumEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.toNumEdit.gotFocus.connect(self.unitListView.resetFiltering)
self.toNumEdit.setEnabled(False)
self.fromNumEdit.convertNum.connect(self.toNumEdit.setNum)
self.toNumEdit.convertNum.connect(self.fromNumEdit.setNum)
self.fromNumEdit.convertRqd.connect(self.toNumEdit.convert)
self.toNumEdit.convertRqd.connect(self.fromNumEdit.convert)
buttonLayout = QVBoxLayout() # major buttons
topLayout.addLayout(buttonLayout)
closeButton = QPushButton(_('&Close'))
buttonLayout.addWidget(closeButton)
closeButton.setFocusPolicy(Qt.NoFocus)
closeButton.clicked.connect(self.close)
optionsButton = QPushButton(_('&Options...'))
buttonLayout.addWidget(optionsButton)
optionsButton.setFocusPolicy(Qt.NoFocus)
optionsButton.clicked.connect(self.changeOptions)
basesButton = QPushButton(_('&Bases...'))
buttonLayout.addWidget(basesButton)
basesButton.setFocusPolicy(Qt.NoFocus)
basesButton.clicked.connect(self.showBases)
fractionsButton = QPushButton(_('&Fractions...'))
buttonLayout.addWidget(fractionsButton)
fractionsButton.setFocusPolicy(Qt.NoFocus)
fractionsButton.clicked.connect(self.showFractions)
helpButton = QPushButton(_('&Help...'))
buttonLayout.addWidget(helpButton)
helpButton.setFocusPolicy(Qt.NoFocus)
helpButton.clicked.connect(self.help)
aboutButton = QPushButton(_('&About...'))
buttonLayout.addWidget(aboutButton)
aboutButton.setFocusPolicy(Qt.NoFocus)
aboutButton.clicked.connect(self.about)
buttonLayout.addStretch()
if self.option.boolData('RemenberDlgPos'):
rect = QRect(self.option.intData('MainDlgXPos', 0, 10000),
self.option.intData('MainDlgYPos', 0, 10000),
self.option.intData('MainDlgXSize', 0, 10000),
self.option.intData('MainDlgYSize', 0, 10000))
if rect.isValid():
availRect = (QApplication.primaryScreen().
availableVirtualGeometry())
topMargin = self.option.intData('MainDlgTopMargin', 0, 1000)
otherMargin = self.option.intData('MainDlgOtherMargin', 0,
1000)
# remove frame space from available rect
availRect.adjust(otherMargin, topMargin,
-otherMargin, -otherMargin)
finalRect = rect.intersected(availRect)
if finalRect.isEmpty():
rect.moveTo(0, 0)
finalRect = rect.intersected(availRect)
if finalRect.isValid():
self.setGeometry(finalRect)
if self.option.boolData('LoadLastUnit') and len(self.recentUnits) > 1:
self.fromGroup.update(self.recentUnits[0])
self.fromUnitEdit.unitUpdate()
self.toGroup.update(self.recentUnits[1])
self.toUnitEdit.unitUpdate()
self.unitListView.updateFiltering()
self.fromNumEdit.setFocus()
self.fromNumEdit.selectAll()
if self.option.boolData('ShowStartupTip'):
self.show()
tipDialog = TipDialog(self.option, self)
tipDialog.exec_()
class Daemon:
def __init__(self, project_file):
self.config = None
self.option = None
self.project = None
# resource attributes
self.cloud = None
self.database = None
self.schedule = None
# project file controls configuration
self.project_file = project_file
@staticmethod
def cleanup():
"""Override: Optional cleanup code."""
logger.info('Application exit')
def main(self):
"""Override: Main code goes here."""
pass
def run(self, *args, **kwargs):
"""
Options
--onetime[=1] run once, then exit; use if called by an external scheduler.
--nonwait[=1] run immediately without waiting for scheduler to determine execution.
"""
# make sure root sessions folder exists
create_folder('../sessions')
# TODO: We start logging before we read config and options so we don't know datapool or anything else.
# TODO: We should log to a default app log and then SWITCH LOG file over after we process options and
# TODO: and config files ??? (2018-09-25)
log_setup(log_file_name=f'../sessions/{script_name()}.log')
log_session_info()
self.setup(*args, **kwargs)
self.start()
# scheduling behavior based on --onetime, --nowait option
if self.option('onetime') == '1':
# one-time run; use when this script is being called by an external scheduler
logger.info('Option(onetime=1): executing once')
self.main()
else:
if self.option('nowait') == '1':
# no-wait option; execute immediately without waiting for scheduler to initiate
logger.info('Option(nowait=1): executing immediately, then following regular schedule')
self.main()
# standard wait for scheduled time slot and run logic
while True:
if self.schedule.wait():
self.main()
else:
break
self.cleanup()
def setup(self, *args, **kwargs):
"""Override: Optional setup code (called once)."""
pass
def start(self):
"""
Override: Code called on initial start and subsequent restarts.
Must set:
- self.option = Option()
- self.schedule = Schedule()
Note: We don't load resources here; resources are loaded on demand.
"""
# load standard config
config = ConfigSectionKey('../conf', '../local')
self.config = config
config.load('bootstrap.ini', 'bootstrap')
config.load('init.ini')
config.load('connect.ini')
# load project specific config
self.config.load(self.project_file)
# load project specific options from optional project specific environ var
environ_var = just_file_stem(self.project_file).lower()
self.option = Option(environ_var, options=config('project').options)
# load project specific schedule
self.schedule = Schedule(config('schedule'))
# diagnostics
self.option.dump()
self.config('project').dump(False)
self.config('schedule').dump(False)
def resolve(self, src: SourceFile):
ctx: PlayParser.CompilationUnitContext = Option().nodes[src]
for i in ctx.importDeclaration():
cls = SymbolTable().get_class(i.qualifiedName().getText())
src.imports[cls.name] = cls
mkdir = input('* mkdir option [true/false]: ')
option_info['mkdir'] = True if mkdir == 'true' else False
if mkdir == 'true':
option_info['dir_name'] = input('* Directory name format: ')
option_info['source_name'] = input('* Source name format: ')
return option_info
if __name__ == '__main__':
try:
if os.path.isdir(DEFAULT_DOWNLOAD_DIR):
sys.exit(ERROR_FORMAT % ('init', "Directory '%s' already exists") %
DEFAULT_DOWNLOAD_DIR)
os.makedirs(DEFAULT_DOWNLOAD_DIR)
network = Network()
user_id = input('* BOJ id: ')
user_password = getpass.getpass('* BOJ password: '******'login', result))
print(PRINT_FORMAT % (result))
option_info = set_options()
option = Option(option_info)
Main(network, option).run()
except KeyboardInterrupt:
print('\n* bye\n')
def parse_option_metadata(self, option_metadata):
for metadata in option_metadata:
expiry = metadata['expiry']
[year, month, day] = expiry.split('-')
expiry = datetime.datetime(year=int(year), month=int(month), day=int(day), tzinfo=pytz.UTC)
option_type = metadata['type']
strike = int(float(metadata['strike']))
option = Option(underlying_pair=self.underlying_pair,
option_type=option_type,
strike=strike,
expiry=expiry
)
option.delta = float(metadata['delta'])
option.gamma = float(metadata['gamma'])
option.theta = float(metadata['theta'])
option.wvega = float(metadata['wvega'])
option.vega = float(metadata['vega'])
option.vol = float(metadata['vol'])
if 'best_bid' in metadata:
option.best_bid = ast.literal_eval(metadata['best_bid'])
if 'best_ask' in metadata:
option.best_ask = ast.literal_eval(metadata['best_ask'])
if 'exchange_symbol' in metadata:
option.exchange_symbol = metadata['exchange_symbol']
if option_type not in self.options:
self.options[option_type] = {}
if expiry not in self.options[option_type]:
self.options[option_type][expiry] = {}
self.options[option_type][expiry][strike] = option
self.options_by_name[option.exchange_symbol] = option
def set_option(self, options: dict):
o = Option()
o.set_extra_vars(options)
return o.result
#!/usr/bin python # -*- coding: utf-8 -*- from option import Option option = Option() option.print_options() option.check_multi_option()
def __init__(self):
labels = ['init', 'pre_armbk', 'hold', 'finish']
Option.__init__(self, labels, 'finish')
self.pre_arm_angles = device.pre_arm_angles
self.pre_armbk_angles = [-90, 0, 90, 0, 0]
self.armbk_angles = [-90, -60, 60, 90, 0]
def drawLeaderboardMenu(DISPLAYSURF):
DISPLAYSURF.fill((0,0,0))
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
connection = mysql.connector.connect(user = config.USER, password = config.PASSWORD, host = config.HOST, database = config.DATABASE)
cursor = connection.cursor()
query = ("SELECT name, total_kills FROM high_scores "
"ORDER BY total_kills DESC "
"LIMIT 10")
cursor.execute(query)
x_spacing = 250
y_spacing = 0
for (name, score) in cursor:
name_option = Option(DISPLAYSURF, BLUE, font, "Name: " + str(name), (config.display_x // 2 - config.display_x // 4, (config.display_y // 5 + y_spacing)))
score_option = Option(DISPLAYSURF, BLUE, font, "Score: " + str(score), (config.display_x // 2 + config.display_x // 10, (config.display_y // 5 + y_spacing)))
name_option.draw()
score_option.draw()
y_spacing += 50
back_option = Option(DISPLAYSURF, BLUE, font, "BACK", (config.display_x // 2 - len("BACK") * 10, (config.display_y - 100)))
while(True):
for event in pygame.event.get():
if back_option.rect.collidepoint(pygame.mouse.get_pos()):
back_option.hovered = True
#sound_hover_menu_item.play()
if event.type == MOUSEBUTTONUP:
# play sound
sound_select_menu_item.play()
cursor.close()
connection.close()
drawMainMenu(DISPLAYSURF)
return
else:
back_option.hovered = False
pygame.display.update()
back_option.draw()
cursor.close()
connection.close()
class ConvertDlg(QWidget):
"""Main dialog for ConvertAll program.
"""
unitData = unitdata.UnitData()
def __init__(self, parent=None):
super().__init__(parent)
self.setWindowTitle('ConvertAll')
modPath = os.path.abspath(sys.path[0])
if modPath.endswith('.zip'): # for py2exe
modPath = os.path.dirname(modPath)
iconPathList = [iconPath, os.path.join(modPath, 'icons/'),
os.path.join(modPath, '../icons')]
self.icons = icondict.IconDict()
self.icons.addIconPath([path for path in iconPathList if path])
try:
QApplication.setWindowIcon(self.icons['convertall_med'])
except KeyError:
pass
self.helpView = None
self.basesDialog = None
self.fractionDialog = None
self.option = Option('convertall', 25)
self.option.loadAll(optiondefaults.defaultList)
self.colorSet = colorset.ColorSet(self.option)
if self.option.strData('ColorTheme') != 'system':
self.colorSet.setAppColors()
self.sysFont = self.font()
self.guiFont = None
fontStr = self.option.strData('GuiFont', True)
if fontStr:
guiFont = self.font()
if guiFont.fromString(fontStr):
QApplication.setFont(guiFont)
self.guiFont = guiFont
self.recentUnits = recentunits.RecentUnits(self.option)
try:
num = ConvertDlg.unitData.readData()
except unitdata.UnitDataError as text:
QMessageBox.warning(self, 'ConvertAll',
_('Error in unit data - {0}'). format(text))
sys.exit(1)
try:
print(_('{0} units loaded').format(num))
except UnicodeError:
print('{0} units loaded'.format(num))
self.fromGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.toGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.unitButtons = []
self.textButtons = []
topLayout = QHBoxLayout(self) # divide main, buttons
mainLayout = QVBoxLayout()
mainLayout.setSpacing(8)
topLayout.addLayout(mainLayout)
unitLayout = QGridLayout() # unit selection
unitLayout.setVerticalSpacing(3)
unitLayout.setHorizontalSpacing(20)
mainLayout.addLayout(unitLayout)
fromLabel = QLabel(_('From Unit'))
unitLayout.addWidget(fromLabel, 0, 0)
self.fromUnitEdit = unitedit.UnitEdit(self.fromGroup)
unitLayout.addWidget(self.fromUnitEdit, 1, 0)
self.fromUnitEdit.setFocus()
toLabel = QLabel(_('To Unit'))
unitLayout.addWidget(toLabel, 0, 1)
self.toUnitEdit = unitedit.UnitEdit(self.toGroup)
unitLayout.addWidget(self.toUnitEdit, 1, 1)
self.fromUnitEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.toUnitEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
vertButtonLayout = QVBoxLayout()
vertButtonLayout.setSpacing(2)
mainLayout.addLayout(vertButtonLayout)
self.unitListView = unitlistview.UnitListView(ConvertDlg.unitData)
mainLayout.addWidget(self.unitListView)
self.fromUnitEdit.currentChanged.connect(self.unitListView.
updateFiltering)
self.toUnitEdit.currentChanged.connect(self.unitListView.
updateFiltering)
self.fromUnitEdit.keyPressed.connect(self.unitListView.handleKeyPress)
self.toUnitEdit.keyPressed.connect(self.unitListView.handleKeyPress)
self.unitListView.unitChanged.connect(self.fromUnitEdit.unitUpdate)
self.unitListView.unitChanged.connect(self.toUnitEdit.unitUpdate)
self.unitListView.haveCurrentUnit.connect(self.enableButtons)
self.unitListView.setFocusPolicy(Qt.NoFocus)
textButtonLayout = QHBoxLayout()
textButtonLayout.setSpacing(6)
vertButtonLayout.addLayout(textButtonLayout)
textButtonLayout.addStretch(1)
self.textButtons.append(QPushButton('{0} (^2)'.format(_('Square'))))
self.textButtons.append(QPushButton('{0} (^3)'.format(_('Cube'))))
self.textButtons.append(QPushButton('{0} (*)'.format(_('Multiply'))))
self.textButtons.append(QPushButton('{0} (/)'.format(_('Divide'))))
for button in self.textButtons:
button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
button.setFocusPolicy(Qt.NoFocus)
textButtonLayout.addWidget(button)
button.clicked.connect(self.unitListView.addUnitText)
textButtonLayout.addStretch(1)
unitButtonLayout = QHBoxLayout()
unitButtonLayout.setSpacing(6)
vertButtonLayout.addLayout(unitButtonLayout)
unitButtonLayout.addStretch(1)
self.clearButton = QPushButton(_('Clear Unit'))
self.clearButton.clicked.connect(self.unitListView.clearUnitText)
self.recentButton = QPushButton(_('Recent Unit'))
self.recentButton.clicked.connect(self.recentMenu)
self.filterButton = QPushButton(_('Filter List'))
self.filterButton.clicked.connect(self.filterMenu)
self.unitButtons = [self.clearButton, self.recentButton,
self.filterButton]
for button in self.unitButtons:
button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
button.setFocusPolicy(Qt.NoFocus)
unitButtonLayout.addWidget(button)
unitButtonLayout.addStretch(1)
self.showHideButtons()
numberLayout = QGridLayout()
numberLayout.setVerticalSpacing(3)
mainLayout.addLayout(numberLayout)
statusLabel = QLabel(_('Set units'))
statusLabel.setFrameStyle(QFrame.Panel | QFrame.Sunken)
mainLayout.addWidget(statusLabel)
fromNumLabel = QLabel(_('No Unit Set'))
numberLayout.addWidget(fromNumLabel, 0, 0)
self.fromNumEdit = numedit.NumEdit(self.fromGroup, self.toGroup,
fromNumLabel, statusLabel,
self.recentUnits, True)
numberLayout.addWidget(self.fromNumEdit, 1, 0)
self.fromUnitEdit.unitChanged.connect(self.fromNumEdit.unitUpdate)
self.fromNumEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
self.fromNumEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.fromNumEdit.gotFocus.connect(self.unitListView.resetFiltering)
self.fromNumEdit.setEnabled(False)
equalsLabel = QLabel(' = ')
equalsLabel.setFont(QFont(self.font().family(), 20))
numberLayout.addWidget(equalsLabel, 0, 1, 2, 1)
toNumLabel = QLabel(_('No Unit Set'))
numberLayout.addWidget(toNumLabel, 0, 3)
self.toNumEdit = numedit.NumEdit(self.toGroup, self.fromGroup,
toNumLabel, statusLabel,
self.recentUnits, False)
numberLayout.addWidget(self.toNumEdit, 1, 3)
self.toUnitEdit.unitChanged.connect(self.toNumEdit.unitUpdate)
self.toNumEdit.gotFocus.connect(self.fromUnitEdit.setInactive)
self.toNumEdit.gotFocus.connect(self.toUnitEdit.setInactive)
self.toNumEdit.gotFocus.connect(self.unitListView.resetFiltering)
self.toNumEdit.setEnabled(False)
self.fromNumEdit.convertNum.connect(self.toNumEdit.setNum)
self.toNumEdit.convertNum.connect(self.fromNumEdit.setNum)
self.fromNumEdit.convertRqd.connect(self.toNumEdit.convert)
self.toNumEdit.convertRqd.connect(self.fromNumEdit.convert)
buttonLayout = QVBoxLayout() # major buttons
topLayout.addLayout(buttonLayout)
closeButton = QPushButton(_('&Close'))
buttonLayout.addWidget(closeButton)
closeButton.setFocusPolicy(Qt.NoFocus)
closeButton.clicked.connect(self.close)
optionsButton = QPushButton(_('&Options...'))
buttonLayout.addWidget(optionsButton)
optionsButton.setFocusPolicy(Qt.NoFocus)
optionsButton.clicked.connect(self.changeOptions)
basesButton = QPushButton(_('&Bases...'))
buttonLayout.addWidget(basesButton)
basesButton.setFocusPolicy(Qt.NoFocus)
basesButton.clicked.connect(self.showBases)
fractionsButton = QPushButton(_('&Fractions...'))
buttonLayout.addWidget(fractionsButton)
fractionsButton.setFocusPolicy(Qt.NoFocus)
fractionsButton.clicked.connect(self.showFractions)
helpButton = QPushButton(_('&Help...'))
buttonLayout.addWidget(helpButton)
helpButton.setFocusPolicy(Qt.NoFocus)
helpButton.clicked.connect(self.help)
aboutButton = QPushButton(_('&About...'))
buttonLayout.addWidget(aboutButton)
aboutButton.setFocusPolicy(Qt.NoFocus)
aboutButton.clicked.connect(self.about)
buttonLayout.addStretch()
if self.option.boolData('RemenberDlgPos'):
rect = QRect(self.option.intData('MainDlgXPos', 0, 10000),
self.option.intData('MainDlgYPos', 0, 10000),
self.option.intData('MainDlgXSize', 0, 10000),
self.option.intData('MainDlgYSize', 0, 10000))
if rect.isValid():
availRect = (QApplication.primaryScreen().
availableVirtualGeometry())
topMargin = self.option.intData('MainDlgTopMargin', 0, 1000)
otherMargin = self.option.intData('MainDlgOtherMargin', 0,
1000)
# remove frame space from available rect
availRect.adjust(otherMargin, topMargin,
-otherMargin, -otherMargin)
finalRect = rect.intersected(availRect)
if finalRect.isEmpty():
rect.moveTo(0, 0)
finalRect = rect.intersected(availRect)
if finalRect.isValid():
self.setGeometry(finalRect)
if self.option.boolData('LoadLastUnit') and len(self.recentUnits) > 1:
self.fromGroup.update(self.recentUnits[0])
self.fromUnitEdit.unitUpdate()
self.toGroup.update(self.recentUnits[1])
self.toUnitEdit.unitUpdate()
self.unitListView.updateFiltering()
self.fromNumEdit.setFocus()
self.fromNumEdit.selectAll()
if self.option.boolData('ShowStartupTip'):
self.show()
tipDialog = TipDialog(self.option, self)
tipDialog.exec_()
def recentMenu(self):
"""Show a menu with recently used units.
"""
button = self.sender()
menu = QMenu()
for unit in self.recentUnits:
action = menu.addAction(unit)
menu.triggered.connect(self.insertRecent)
menu.exec_(button.mapToGlobal(QPoint(0, 0)))
def insertRecent(self, action):
"""Insert the recent unit from the given action.
"""
editor = (self.fromUnitEdit if self.fromUnitEdit.activeEditor else
self.toUnitEdit)
editor.unitGroup.update(action.text())
editor.unitUpdate()
self.unitListView.updateFiltering()
def filterMenu(self):
"""Show a menu with unit types for filtering or clear filter if set.
"""
if self.unitListView.typeFilter: # clear filter
self.unitListView.typeFilter = ''
self.unitListView.updateFiltering()
self.filterButton.setText(_('Filter List'))
else: # show filter menu
button = self.sender()
menu = QMenu()
for unitType in ConvertDlg.unitData.typeList:
action = menu.addAction(unitType)
menu.triggered.connect(self.startTypeFilter)
menu.exec_(button.mapToGlobal(QPoint(0, 0)))
def startTypeFilter(self, action):
"""Start type filter based on the given action.
"""
self.unitListView.typeFilter = action.text()
self.unitListView.updateFiltering()
self.filterButton.setText(_('Clear Filter'))
def enableButtons(self, editActive, hasUnit):
"""Enable text editing buttons if have a current unit.
"""
for button in self.textButtons:
button.setEnabled(hasUnit)
self.clearButton.setEnabled(editActive)
self.recentButton.setEnabled(editActive and len(self.recentUnits))
def showHideButtons(self):
"""Show or hide text modify buttons.
"""
textButtonsVisible = self.option.boolData('ShowOpButtons')
unitButtonsVisible = self.option.boolData('ShowUnitButtons')
for button in self.textButtons:
if textButtonsVisible:
button.show()
else:
button.hide()
for button in self.unitButtons:
if unitButtonsVisible:
button.show()
else:
button.hide()
def changeOptions(self):
"""Show dialog for option changes.
"""
dlg = optiondlg.OptionDlg(self.option, self)
dlg.startGroupBox(_('Result Precision'))
optiondlg.OptionDlgInt(dlg, 'DecimalPlaces', _('Decimal places'),
0, UnitGroup.maxDecPlcs)
dlg.endGroupBox()
optiondlg.OptionDlgRadio(dlg, 'Notation', _('Result Display'),
[('general', _('Use short representation')),
('fixed', _('Use fixed decimal places')),
('scientific', _('Use scientific notation')),
('engineering', _('Use engineering notation'))])
dlg.startGroupBox(_('Recent Units'))
optiondlg.OptionDlgInt(dlg, 'RecentUnits', _('Number saved'), 2, 99)
optiondlg.OptionDlgBool(dlg, 'LoadLastUnit',
_('Load last units at startup'))
dlg.startGroupBox(_('User Interface'))
optiondlg.OptionDlgBool(dlg, 'ShowOpButtons',
_('Show operator buttons (1st row)'))
optiondlg.OptionDlgBool(dlg, 'ShowUnitButtons',
_('Show unit buttons (2nd row)'))
optiondlg.OptionDlgBool(dlg, 'ShowStartupTip',
_('Show tip at startup'))
optiondlg.OptionDlgBool(dlg, 'RemenberDlgPos',
_('Remember window position'))
dlg.startGroupBox(_('Appearance'))
optiondlg.OptionDlgPush(dlg, _('Set GUI Colors'), self.showColorDlg)
optiondlg.OptionDlgPush(dlg, _('Set GUI Fonts'), self.showFontDlg)
if dlg.exec_() == QDialog.Accepted:
self.option.writeChanges()
self.recentUnits.updateQuantity()
self.showHideButtons()
self.fromNumEdit.unitUpdate()
self.toNumEdit.unitUpdate()
def showColorDlg(self):
"""Show the color change dialog.
"""
self.colorSet.showDialog(self)
def showFontDlg(self):
"""Show the custom font dialog.
"""
dialog = fontset.CustomFontDialog(self.sysFont, self.guiFont, self)
if dialog.exec_() == QDialog.Accepted:
newFont = dialog.resultingFont()
if newFont:
self.option.changeData('GuiFont', newFont.toString(), True)
self.guiFont = newFont
else: # use system font
self.option.changeData('GuiFont', '', True)
self.guiFont = None
newFont = self.sysFont
QApplication.setFont(newFont)
def showBases(self):
"""Show the dialog for base conversions.
"""
if not self.basesDialog:
self.basesDialog = bases.BasesDialog()
self.basesDialog.show()
def showFractions(self):
"""Show the dialog for fraction conversions.
"""
if not self.fractionDialog:
self.fractionDialog = bases.FractionDialog()
self.fractionDialog.show()
def findHelpFile(self):
"""Return the path to the help file.
"""
modPath = os.path.abspath(sys.path[0])
if modPath.endswith('.zip'): # for py2exe
modPath = os.path.dirname(modPath)
pathList = [helpFilePath, os.path.join(modPath, '../doc/'),
modPath, os.path.join(modPath, 'doc/')]
fileList = ['README.html']
if lang and lang != 'C':
fileList[0:0] = ['README_{0}.html'.format(lang),
'README_{0}.html'.format(lang[:2])]
for path in [path for path in pathList if path]:
for fileName in fileList:
fullPath = os.path.join(path, fileName)
if os.access(fullPath, os.R_OK):
return fullPath
return ''
def help(self):
"""View the ReadMe file.
"""
if not self.helpView:
path = self.findHelpFile()
if not path:
QMessageBox.warning(self, 'ConvertAll',
_('Read Me file not found'))
return
self.helpView = helpview.HelpView(path,
_('ConvertAll README File'),
self.icons)
self.helpView.show()
def about(self):
"""Show about info.
"""
QMessageBox.about(self, 'ConvertAll',
_('ConvertAll Version {0}\nby {1}').
format(__version__, __author__))
def closeEvent(self, event):
"""Save window data on close.
"""
if self.option.boolData('RemenberDlgPos'):
contentsRect = self.geometry()
frameRect = self.frameGeometry()
self.option.changeData('MainDlgXSize', contentsRect.width(), True)
self.option.changeData('MainDlgYSize', contentsRect.height(), True)
self.option.changeData('MainDlgXPos', contentsRect.x(), True)
self.option.changeData('MainDlgYPos', contentsRect.y(), True)
self.option.changeData('MainDlgTopMargin',
contentsRect.y() - frameRect.y(), True)
self.option.changeData('MainDlgOtherMargin',
contentsRect.x() - frameRect.x(), True)
self.recentUnits.writeList()
self.option.writeChanges()
event.accept()
class ConvertDlg(QtGui.QWidget):
"""Main dialog for ConvertAll program"""
unitData = unitdata.UnitData()
def __init__(self, parent=None):
QtGui.QWidget.__init__(self, parent)
self.setWindowTitle('ConvertAll')
modPath = os.path.abspath(sys.path[0])
if modPath.endswith('.zip'): # for py2exe
modPath = os.path.dirname(modPath)
iconPathList = [iconPath, os.path.join(modPath, 'icons/'),
os.path.join(modPath, '../icons')]
self.icons = icondict.IconDict()
self.icons.addIconPath(filter(None, iconPathList))
try:
QtGui.QApplication.setWindowIcon(self.icons['convertall_med'])
except KeyError:
pass
self.helpView = None
self.findDlg = None
self.option = Option('convertall', 20)
self.option.loadAll(optiondefaults.defaultList)
try:
num = ConvertDlg.unitData.readData()
print '%d units loaded' % num
except unitdata.UnitDataError, text:
QtGui.QMessageBox.warning(self, 'ConvertAll',
'Error in unit data - %s' % text)
sys.exit(1)
self.fromGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.toGroup = UnitGroup(ConvertDlg.unitData, self.option)
self.origPal = QtGui.QApplication.palette()
self.updateColors()
self.textButtons = []
topLayout = QtGui.QHBoxLayout(self) # divide main, buttons
mainLayout = QtGui.QVBoxLayout()
topLayout.addLayout(mainLayout)
unitLayout = QtGui.QHBoxLayout() # unit selection
mainLayout.addLayout(unitLayout)
fromBox = QtGui.QGroupBox('From Unit')
unitLayout.addWidget(fromBox)
fromLayout = QtGui.QVBoxLayout(fromBox)
fromLayout.setSpacing(3)
self.fromUnitEdit = unitedit.UnitEdit(self.fromGroup)
fromLayout.addWidget(self.fromUnitEdit)
self.fromUnitEdit.setFocus()
self.fromUnitListView = unitlistview.UnitListView(self.fromGroup, 0)
fromLayout.addWidget(self.fromUnitListView)
self.connect(self.fromUnitEdit, QtCore.SIGNAL('currentChanged'),
self.fromUnitListView.updateSelection)
self.connect(self.fromUnitListView, QtCore.SIGNAL('unitChanged'),
self.fromUnitEdit.unitUpdate)
self.fromUnitListView.setFocusProxy(self.fromUnitEdit)
self.addButtons(self.fromGroup, self.fromUnitListView, fromLayout)
toBox = QtGui.QGroupBox('To Unit')
unitLayout.addWidget(toBox)
toLayout = QtGui.QVBoxLayout(toBox)
toLayout.setSpacing(3)
self.toUnitEdit = unitedit.UnitEdit(self.toGroup)
toLayout.addWidget(self.toUnitEdit)
self.toUnitListView = unitlistview.UnitListView(self.toGroup, 1)
toLayout.addWidget(self.toUnitListView)
self.connect(self.toUnitEdit, QtCore.SIGNAL('currentChanged'),
self.toUnitListView.updateSelection)
self.connect(self.toUnitListView, QtCore.SIGNAL('unitChanged'),
self.toUnitEdit.unitUpdate)
self.toUnitListView.setFocusProxy(self.toUnitEdit)
self.addButtons(self.toGroup, self.toUnitListView, toLayout)
self.showHideButtons()
numberLayout = QtGui.QHBoxLayout()
mainLayout.addLayout(numberLayout)
statusLabel = QtGui.QLabel('Set units')
statusLabel.setFrameStyle(QtGui.QFrame.Panel | QtGui.QFrame.Sunken)
mainLayout.addWidget(statusLabel)
fromNumBox = QtGui.QGroupBox('No Unit Set')
numberLayout.addWidget(fromNumBox)
fromNumLayout = QtGui.QVBoxLayout(fromNumBox)
self.fromNumEdit = numedit.NumEdit(self.fromGroup, self.toGroup,
fromNumBox, statusLabel, True)
fromNumLayout.addWidget(self.fromNumEdit)
self.connect(self.fromUnitEdit, QtCore.SIGNAL('unitChanged'),
self.fromNumEdit.unitUpdate)
self.fromNumEdit.setEnabled(False)
equalsLabel = QtGui.QLabel(' = ')
equalsLabel.setFont(QtGui.QFont(self.font().family(), 30))
numberLayout.addWidget(equalsLabel)
toNumBox = QtGui.QGroupBox('No Unit Set')
numberLayout.addWidget(toNumBox)
toNumLayout = QtGui.QVBoxLayout(toNumBox)
self.toNumEdit = numedit.NumEdit(self.toGroup, self.fromGroup,
toNumBox, statusLabel, False)
toNumLayout.addWidget(self.toNumEdit)
self.connect(self.toUnitEdit, QtCore.SIGNAL('unitChanged'),
self.toNumEdit.unitUpdate)
self.toNumEdit.setEnabled(False)
self.connect(self.fromNumEdit, QtCore.SIGNAL('convertNum(QString &)'),
self.toNumEdit.setNum)
self.connect(self.toNumEdit, QtCore.SIGNAL('convertNum(QString &)'),
self.fromNumEdit.setNum)
self.connect(self.fromNumEdit, QtCore.SIGNAL('convertRqd'),
self.toNumEdit.convert)
self.connect(self.toNumEdit, QtCore.SIGNAL('convertRqd'),
self.fromNumEdit.convert)
buttonLayout = QtGui.QVBoxLayout() # major buttons
topLayout.addLayout(buttonLayout)
closeButton = QtGui.QPushButton('&Close')
buttonLayout.addWidget(closeButton)
closeButton.setFocusPolicy(QtCore.Qt.NoFocus)
self.connect(closeButton, QtCore.SIGNAL('clicked()'), self.close)
finderButton = QtGui.QPushButton('&Unit Finder...')
buttonLayout.addWidget(finderButton)
finderButton.setFocusPolicy(QtCore.Qt.NoFocus)
self.connect(finderButton, QtCore.SIGNAL('clicked()'), self.showFinder)
optionsButton = QtGui.QPushButton('&Options...')
buttonLayout.addWidget(optionsButton)
optionsButton.setFocusPolicy(QtCore.Qt.NoFocus)
self.connect(optionsButton, QtCore.SIGNAL('clicked()'),
self.changeOptions)
helpButton = QtGui.QPushButton('&Help...')
buttonLayout.addWidget(helpButton)
helpButton.setFocusPolicy(QtCore.Qt.NoFocus)
self.connect(helpButton, QtCore.SIGNAL('clicked()'), self.help)
aboutButton = QtGui.QPushButton('&About...')
buttonLayout.addWidget(aboutButton)
aboutButton.setFocusPolicy(QtCore.Qt.NoFocus)
self.connect(aboutButton, QtCore.SIGNAL('clicked()'), self.about)
buttonLayout.addStretch()
xSize = self.option.intData('MainDlgXSize', 0, 10000)
ySize = self.option.intData('MainDlgYSize', 0, 10000)
if xSize and ySize:
self.resize(xSize, ySize)
self.move(self.option.intData('MainDlgXPos', 0, 10000),
self.option.intData('MainDlgYPos', 0, 10000))
def main(user, executeTrades, timeInterval, test):
# TODO: use executeTrades flag to decide whether to trade automatically
# TODO: execute trades automatically if profit > margin or delta gap > margin
# TODO: setup tracking for a purchased strangle (i.e. email if profit > margin, or earnings is the next day, or delta spread is large)
# TODO: analysis tools (option price vs xsigma over time, line for stock price, bar for earnings date), (option prices at different strikes over time), (option price vs delta over time)
if test:
print("--------------TEST MODE---------------")
print(user, executeTrades, timeInterval)
while True:
cal = USTradingCalendar()
eastern = timezone("US/Eastern")
currentTime = datetime.datetime.now(eastern)
currentDate = datetime.date.today()
easternHour = currentTime.hour
easternMinute = currentTime.minute
isDuringMarketHours = (easternHour == 6 and easternMinute > 30) or (
easternHour > 6 and easternHour < 16)
isWeekday = currentDate.isoweekday() in range(1, 6)
isTradingHoliday = currentDate in cal.holidays(
start=currentDate, end=currentDate + datetime.timedelta(days=1))
if (not isDuringMarketHours or not isWeekday
or isTradingHoliday) and (not test):
print(
"It is either not during market hours or is a holiday. Sleeping until next observation..."
)
time.sleep(60 * timeInterval)
continue
if not test:
print("Connecting to IB...")
ib = ibUtils.connect()
for symbol in TESTING_WATCH_LIST:
print("\nSymbol:", symbol)
print(datetime.datetime.now())
print("Getting contract...")
if not test:
contract = ibUtils.getStockQualifiedContract(symbol, ib)
print("Getting ticker...")
if not test:
ticker = ibUtils.getTicker(contract, ib)
print("Getting earnings date...")
if not test:
earningsDate = ibUtils.getNextEarningsDate(contract, ib)
else:
earningsDate = datetime.date(2018, 10, 23)
if not test:
stockPrice = ticker.marketPrice()
print("Getting option details...")
nextExpiry, optionTickers = ibUtils.getOptions(
contract, stockPrice, earningsDate, ib)
else:
stockPrice = 23.53
nextExpiry = datetime.date(2018, 11, 16)
hv2yr = get2yrVolatility(symbol)
stock = Stock(symbol, stockPrice)
if not test:
options = []
for optionTicker in optionTickers:
if not optionTicker.bid or optionTicker.bid <= 0 or not optionTicker.ask or optionTicker.ask <= 0:
continue
else:
options.append(
Option(hv2yr, optionTicker.contract.strike,
optionTicker.contract.right == 'C',
optionTicker.bid, optionTicker.ask,
nextExpiry))
else:
options = [
Option(hv2yr, 22.0, True, 3.30, 3.35, nextExpiry),
Option(hv2yr, 23.0, True, 3.30, 3.35, nextExpiry),
Option(hv2yr, 24.0, True, 3.30, 3.35, nextExpiry),
Option(hv2yr, 25.0, True, 3.30, 3.35, nextExpiry),
Option(hv2yr, 22.0, False, 3.30, 3.35, nextExpiry),
Option(hv2yr, 23.0, False, 3.30, 3.35, nextExpiry),
Option(hv2yr, 24.0, False, 3.30, 3.35, nextExpiry),
Option(hv2yr, 25.0, False, 3.30, 3.35, nextExpiry)
]
for option in options:
option.setDaySigma(stock)
if option.daySigma == None:
continue
option.setDelta(stock, hv2yr)
option.setTimeDecay(stock)
# TODO: compute delta for options
cwd = os.getcwd()
if not test:
traderPath = os.path.join(cwd, user)
else:
testPath = os.path.join(cwd, "test")
traderPath = os.path.join(testPath, user)
testExists = os.path.isdir(testPath)
if not testExists:
os.mkdir(testPath)
stockPath = os.path.join(traderPath, symbol)
earningsDatePath = os.path.join(stockPath,
earningsDate.strftime("%d%b%Y"))
expiryDatePath = os.path.join(earningsDatePath,
nextExpiry.strftime("%d%b%Y"))
traderExists = os.path.isdir(traderPath)
stockExists = os.path.isdir(stockPath)
earningsDateExists = os.path.isdir(earningsDatePath)
expiryDateExists = os.path.isdir(expiryDatePath)
if not traderExists:
os.mkdir(traderPath)
if not stockExists:
os.mkdir(stockPath)
if not earningsDateExists:
os.mkdir(earningsDatePath)
if not expiryDateExists:
os.mkdir(expiryDatePath)
for option in options:
if option.daySigma == None:
continue
putCall = "call" if option.call else "put"
optionPath = os.path.join(
expiryDatePath,
putCall + "_" + str(option.strike) + ".csv")
optionExists = os.path.exists(optionPath)
date = datetime.datetime.now().strftime("%d%b%Y%H%M%S")
if not optionExists:
df = pd.DataFrame(columns=[
"Datetime", "StockPrice", "OptionPrice", "XSigma",
"Delta", "TimeDecayOneDay"
])
df.to_csv(optionPath, index=False)
df = pd.read_csv(optionPath)
df = df.append(pd.Series(
{
"Datetime": date,
"StockPrice": stock.currentPrice,
"OptionPrice": option.cost,
"XSigma": option.daySigma / hv2yr,
"Delta": option.delta,
"TimeDecayOneDay": option.timeDecay
},
name=date),
ignore_index=True)
df.to_csv(optionPath, index=False)
ib.disconnect()
print("Sleeping between observations...\n")
ib.sleep(60 * timeInterval)
def __init__(self):
labels = ['init', 'pre_armbk', 'pre_fetch', 'finish']
Option.__init__(self, labels, 'finish')
self.goal_angles = None
self.pre_prefetch_angles = [0, 0, 150, 0, 0]
def add_options():
"""
Add expected config params.
returns:
list[options]
"""
options = []
options.append(Option(section='default',
param='filled_taxonomies',
type=(list, str),
required=True,
default_value=None))
options.append(Option(section='default',
param='empty_taxonomies',
type=str,
required=True,
default_value=None))
options.append(Option(section='default',
param='output_taxonomies',
type=str,
required=True,
default_value=None))
options.append(Option(section='default',
param='language',
type=str,
required=False,
default_value='english'))
options.append(Option(section='default',
param='vector_threshold',
type=float,
required=False,
default_value=0.3))
options.append(Option(section='default',
param='vector_space_output',
type=str,
required=True,
default_value=None))
# word2vec options
options.append(Option(section='word2vec',
param='min_count',
type=int,
required=False,
default_value=0))
options.append(Option(section='word2vec',
param='iter',
type=int,
required=False,
default_value=10))
options.append(Option(section='word2vec',
param='window',
type=int,
required=False,
default_value=5))
options.append(Option(section='word2vec',
param='negative',
type=int,
required=False,
default_value=5))
options.append(Option(section='word2vec',
param='size',
type=int,
required=False,
default_value=50))
options.append(Option(section='word2vec',
param='alpha',
type=float,
required=False,
default_value=0.025))
options.append(Option(section='word2vec',
param='workers',
type=int,
required=False,
default_value=4))
return options
def __init__(self, feedbacker):
self.feedbacker = feedbacker
self.width = feedbacker.width
self.height = feedbacker.height
self.options = [Option.newWithTrue(self.width, self.height)]
print q
q.enqueue(*range(9))
print q
for i in range(0, len(q)):
print(q[i], q[-i - 1])
q.enqueue(*range(9, 12))
print q
q.dequeue(5)
print q
while len(q):
print q[0]
q.dequeue()
# Test AtariBuffer
from option import Option
opt = Option('config.json')
opt['bufSize'] = 9
opt['histLen'] = 2
buffer = AtariBuffer(opt)
for i in range(1, 3):
buffer.append(np.ones([1, 1]) * 255 / i, i, i - 1, False)
buffer.appendAction(0, True)
buffer.append(np.ones([1, 1]) * 255 / 3, 3, 3 - 1, True)
buffer.appendAction(0, False)
for i in range(4, 10):
buffer.append(np.ones([1, 1]) * 255 / i, i, i - 1, False)
buffer.appendAction(0, True)
buffer.append(np.ones([1, 1]) * 255 / 10, 10, 10 - 1, True)
buffer.appendAction(0, False)
print 'len:', len(buffer)
for i in range(len(buffer)):
strikes = [int(k) for k in strikes]
strikes.sort()
logging.info('Available strikes: ' + str(strikes))
# TODO Show the user which is current underlying price or at least
# where ATM is at the selection dialog
selectionList = SelectionList(strikes)
selectionList.mainloop()
if selectionList.selection:
strike = int(selectionList.selection)
logging.info('Selected ' + str(strike) + ' as calendar strike')
else:
logging.info('User quitted')
sys.exit()
near_term_opt = Option.from_pandas(df[(df['m_expiry'] == near_term)
& (df['m_strike'] == strike)],
amount=-1)
next_term_opt = Option.from_pandas(df[(df['m_expiry'] == next_term)
& (df['m_strike'] == strike)],
amount=1)
calendar = CalendarSpread(near_term_opt, next_term_opt)
logging.info('Plotting ' + str(near_term) + '/' + str(next_term) +
' risk graph')
print near_term_opt
print next_term_opt
r = 0.01
t = 0 # TODO set t
breakevens, max_profit, max_loss = calendar.plot( # TODO Remove IV
risk_free_rate=r,
def __init__(self):
labels = ['init', 'find_pos', 'go', 'check', 'finish']
Option.__init__(self, labels, 'finish')
self.human = None
self.room = None
res_rgb = rgb * np.stack(
(mask_tmp, mask_tmp, mask_tmp), axis=2) # 二值结果映射到原图
res_rgb = res_rgb.astype(np.uint8)
mask_res = mask * res
damage_ratio = mask_res.sum() / mask.sum()
# 保存结果
res_path = r'data\{}\damage-eval-{:.4f}.jpg'.format(opt.name, damage_ratio)
plt.imsave(res_path, res_rgb)
return damage_ratio
if __name__ == '__main__':
opt = Option()
img = cv2.imread(opt.img_path)
mask = np.zeros(img.shape[0:2], dtype=np.uint8)
pts = []
cv2.namedWindow('image', 0)
cv2.setMouseCallback('image', on_mouse, [img, mask, pts])
cv2.imshow('image', img)
cv2.waitKey(0)
rgb = plt.imread(opt.img_path)
mask_tmp = mask.copy().astype(np.float)
mask_tmp[mask == 1] = 0.5
mask_tmp[mask == 0] = 1
res_rgb = rgb * np.stack(
def backtest(self):
#now we want to loop through and create options objects that we bought and sold at the roll
rolled_options = []
rolled_strikes = []
rolled_prices = []
roll_posted = []
df = self.df
for index, row in df.iterrows():
#hardcoding 2 as risk free rate for now
options_rolled = []
option_strikes = []
option_prices = []
for i, option in enumerate(self.strategy):
option_type = option[0]
zscore = option[1]
buy_sell = option[2]
#30 delta put
#problem is we don't know implied vol until we define strike
#don't know strike until we get implied vol
#strike = strike_from_delta(row['roll_SPY'],row['roll_days_to_expir']/365,.01,row['roll_VIX']/100,.30,option_type)
if self.backtest_type == 'constant_margin':
if i == 0:
strike = calculate_strike(option_type, row['roll_SPY'],
row['roll_VIX'], zscore)
implied_vol = get_implied_vol(option_type, strike,
row['roll_SPY'],
row['roll_VIX'],
row['roll_SKEW'])
o = Option(buy_sell, option_type, row['roll_SPY'],
strike, row['roll_days_to_expir'] / 365,
None, .01, implied_vol / 100, 0.03)
o.get_price_delta()
options_rolled.append([o])
option_strikes.append(strike)
option_prices.append(o.calc_price)
if i == 0:
#this is the sold put
amt_posted = strike / self.leverage
#maitenance = strike1 - strike2
#.7 = maitenance / amt_posted
#.7 * amt_posted
#willing to lose at maximum 70%
strike2 = strike - (self.max_loss * amt_posted)
implied_vol = get_implied_vol(option_type, strike2,
row['roll_SPY'],
row['roll_VIX'],
row['roll_SKEW'])
o2 = Option('BUY', option_type, row['roll_SPY'],
strike2, row['roll_days_to_expir'] / 365,
None, .01, implied_vol / 100, 0.03)
o2.get_price_delta()
options_rolled.append([o2])
option_strikes.append(strike2)
option_prices.append(o2.calc_price)
#we don't need to get any other options calculations in this strategy
break
else:
strike = calculate_strike(option_type, row['roll_SPY'],
row['roll_VIX'], zscore)
implied_vol = get_implied_vol(option_type, strike,
row['roll_SPY'],
row['roll_VIX'],
row['roll_SKEW'])
o = Option(buy_sell, option_type, row['roll_SPY'], strike,
row['roll_days_to_expir'] / 365, None, .01,
implied_vol / 100, 0.03)
o.get_price_delta()
options_rolled.append([o])
option_strikes.append(strike)
option_prices.append(o.calc_price)
if i == 0:
#this is the sold put
amt_posted = strike / self.leverage
rolled_options.append(options_rolled)
rolled_strikes.append(option_strikes)
rolled_prices.append(option_prices)
roll_posted.append(amt_posted)
df['rolled_options'] = rolled_options
df['rolled_strikes'] = rolled_strikes
df['rolled_prices'] = rolled_prices
df['previous_rolled_strikes'] = df['rolled_strikes'].shift(1)
df['previous_rolled_strikes'] = df['previous_rolled_strikes'].fillna(
method='bfill')
df['previous_days_to_expir'] = (
df['next_expiration'].shift(1).fillna(method='bfill') -
df['date']).dt.days
df['roll_posted'] = roll_posted
df['roll_posted'] = df['roll_posted'].shift(1).fillna(method='bfill')
#now we create a time series of the same options measured as time decays and the market moves
options_list = []
prices_list = []
delta_list = []
vega_list = []
theta_list = []
gamma_list = []
portfolio_prices = []
portfolio_deltas = []
portfolio_vegas = []
portfolio_thetas = []
portfolio_gammas = []
previous_option_price = []
maintenances_list = []
margin_triggers = []
for index, row in df.iterrows():
#hardcoding 2 as risk free rate for now
options = []
prices = []
deltas = []
vegas = []
thetas = []
gammas = []
previous_rolled_option_price = []
for i, option in enumerate(self.strategy):
option_type = option[0]
zscore = option[1]
buy_sell = option[2]
strike = row['rolled_strikes'][i]
implied_vol = get_implied_vol(option_type, strike, row['SPY'],
row['VIX'], row['SKEW'])
o = Option(buy_sell, option_type, row['SPY'], strike,
row['days_to_expir'] / 365, None, .02,
implied_vol / 100, 0.03)
o.get_price_delta()
options.append([o])
prices.append(o.calc_price)
deltas.append(o.delta)
o.get_vega()
vegas.append(o.vega)
o.get_theta()
thetas.append(o.theta)
o.get_gamma()
gammas.append(o.gamma)
##caculate price on previously rolled option
##if backtester is too slow we could add in a codition that it must be roll to caculate, otherwise previous option = current option
previous_strike = row['previous_rolled_strikes'][i]
previous_implied_vol = get_implied_vol(option_type,
previous_strike,
row['SPY'], row['VIX'],
row['SKEW'])
o_previous = Option(buy_sell, option_type, row['SPY'],
previous_strike,
row['previous_days_to_expir'] / 365, None,
.02, previous_implied_vol / 100, 0.03)
o_previous.get_price_delta()
previous_rolled_option_price.append(o_previous.calc_price)
#-price for sold calls
#for the sold naked put
if i == 0:
if (len(self.strategy) > 1
and (self.strategy[0][2] == 'SELL'
and self.strategy[1][2] == 'BUY')):
#then we're doing a spread
maintenance = row['previous_rolled_strikes'][0] - row[
'previous_rolled_strikes'][1]
margin_trigger = maintenance > row['roll_posted']
elif self.backtest_type == 'constant_margin':
maintenance = row['previous_rolled_strikes'][0] - row[
'previous_rolled_strikes'][1]
margin_trigger = maintenance > row['roll_posted']
else:
maintenance = calculate_maintenance_requirements(
o_previous, row['SPY'])
margin_trigger = maintenance > row['roll_posted']
previous_option_price.append(previous_rolled_option_price)
options_list.append(options)
prices_list.append(prices)
delta_list.append(deltas)
vega_list.append(vegas)
theta_list.append(thetas)
gamma_list.append(gammas)
#averages for portfolio attributes
portfolio_price = sum(prices) / float(len(prices))
portfolio_delta = sum(deltas) / float(len(deltas))
portfolio_vega = sum(vegas) / float(len(vegas))
portfolio_theta = sum(thetas) / float(len(thetas))
portfolio_gamma = sum(gammas) / float(len(gammas))
portfolio_prices.append(portfolio_price)
portfolio_deltas.append(portfolio_delta)
portfolio_vegas.append(portfolio_vega)
portfolio_thetas.append(portfolio_theta)
portfolio_gammas.append(portfolio_gamma)
maintenances_list.append(maintenance)
margin_triggers.append(margin_trigger)
df['previous_option_current_price'] = previous_option_price
df['options'] = options_list
df['prices'] = prices_list
df['deltas'] = delta_list
df['vegas'] = vega_list
df['thetas'] = theta_list
df['gammas'] = gamma_list
df['portfolio_price'] = portfolio_prices
df['portfolio_delta'] = portfolio_deltas
df['portfolio_vega'] = portfolio_vegas
df['portfolio_theta'] = portfolio_thetas
df['portfolio_gamma'] = portfolio_gammas
df['maintenance'] = maintenances_list
df['previous_prices'] = df['prices'].shift(1)
df['previous_prices'] = df['previous_prices'].fillna(method='bfill')
df['margin_trigger'] = margin_triggers
returns_list = []
portfolio_returns = []
for index, row in df.iterrows():
returns = []
for i, option in enumerate(self.strategy):
if i == 0:
#log the put's stike to calculate other returns and leverage from
#key assumption - all leverage revolves around the sold put
previous_rolled_strike = row['previous_rolled_strikes'][i]
current_price = row['previous_option_current_price'][i]
previous_price = row['previous_prices'][i]
ret = (current_price - previous_price) / previous_rolled_strike
returns.append(ret)
returns_list.append(returns)
portfolio_return = sum(returns)
portfolio_returns.append(portfolio_return)
df['returns_list'] = returns_list
df['portfolio_returns_raw'] = portfolio_returns
#Lever
df['portfolio_returns_raw'] = df[
'portfolio_returns_raw'] * self.leverage
##initialize delta hedging
##short the spy to keep delta at a steady .3
df['spy_return'] = (df['SPY'] -
df['SPY'].shift(1)) / (df['SPY'].shift(1))
#0 for first return
#df['spy_return'] = df['spy_return'].fillna(0)
#lever other portfolio metrics as well like greeks
df['portfolio_delta'] = df['portfolio_delta'] * self.leverage
#df['delta_adjustment'] = .6 - df['portfolio_delta']
#take the delta adjustment one step in the future (that is you look at your portfolio delta at the end of the day and then short the spy by that amount)
#df['delta_adjustment'] = df['delta_adjustment'].shift(1).fillna(0)
#df['short_spy_return'] = df['delta_adjustment'] * df['spy_return']
#df['portfolio_returns_raw'] = df['portfolio_returns_raw'] + df['short_spy_return']
df['portfolio_vega'] = df['portfolio_vega'] * self.leverage
df['portfolio_theta'] = df['portfolio_theta'] * self.leverage
df['portfolio_gamma'] = df['portfolio_gamma'] * self.leverage
#cum_sum of returns within roll period
df['roll_period'] = df['roll_date'].shift(1)
df['roll_period'] = df['roll_period'].fillna(method='bfill')
df['next_roll_period'] = df['next_roll_date'].shift(1)
df['next_roll_period'] = df['next_roll_period'].fillna(method='bfill')
df['roll_cumulative_return_raw'] = df.groupby(
'roll_period')['portfolio_returns_raw'].cumsum()
#here we start each roll out with the cumulative returns of rolls before it
cum_rolls = (df.groupby('next_roll_period')
['roll_cumulative_return_raw'].last() + 1).cumprod()
cum_rolls = cum_rolls.drop(
cum_rolls.index[len(cum_rolls) - 1]).rename('previous_roll_return')
df = df.set_index('roll_period').join(cum_rolls,
how='left').set_index('date')
df['previous_roll_return'] = df['previous_roll_return'].fillna(1)
df['daily_returns_cumulative'] = (df['roll_cumulative_return_raw'] +
1) * df['previous_roll_return']
#df[(df['date'] > '2005-2-25') & (df['date'] < '2011-9-16')]['daily_returns_cumulative'].plot()
df['roll_period'] = df['roll_date'].shift(1)
#calculate margin pct
df['margin_pct'] = df['maintenance'] / df['roll_posted']
self.results = df
print('backtest complete')
return None
PATH_TO_CKPT = os.path.join(CWD_PATH, "model", MODEL_NAME,
"frozen_inference_graph.pb")
model = Model(PATH_TO_CKPT)
model.setup()
PATH_TO_LABELS = os.path.join(CWD_PATH, "label", "mscoco_label_map.pbtxt")
label = Label(PATH_TO_LABELS)
label.setup()
detector = Detector()
detector.setModel(model)
opt = Option()
opt.type = False
opt.color = False
opt.speed = True
opt.stay = False
tracker = Tracker()
objectClass = ["bicycle", "car", "motorcycle", "bus", "truck"]
if args.video is None:
video_src = 0
else:
video_src = args.video
cap = cv2.VideoCapture(video_src)
class Epilader:
INTRA_URL = "https://intra.epitech.eu/"
JSON_CONF = "./Config/conf.json"
def __init__(self, arg):
self.curl = pycurl.Curl()
self.option = Option()
self.option.parse(arg)
self.log = Log(self.option.isVerboseMode())
self.datas = []
config = json.loads(open(Epilader.JSON_CONF).read())
self.login = config["login"]
self.password = config["password"]
self.notes = Notes(config["projets"], config["modules"])
def __del__(self):
self.curl.close()
def set_cookies(self):
self.curl.setopt(self.curl.POST, 1)
self.curl.setopt(self.curl.URL, Epilader.INTRA_URL)
self.curl.setopt(self.curl.POSTFIELDS, 'login='******'&password='******'')
def find_gpa(self, request_result):
request_result = json.loads(request_result)
try:
gpa = float([x for x in request_result["gpa"] if (x["cycle"] == "bachelor")][0]['gpa'])
except:
self.log.error(Log.NO_GPA)
return -1
return gpa
def find_moyenne(self, request_result):
self.notes.init()
request_result = json.loads(request_result)
for note in request_result["notes"]:
self.notes.add_note(note)
return self.notes.moyenne()
def request(self, href):
self.curl.setopt(self.curl.URL, href)
reponse = io.BytesIO()
self.curl.setopt(self.curl.WRITEFUNCTION, reponse.write)
try:
self.curl.perform()
except KeyboardInterrupt:
raise KeyboardInterrupt
except:
self.log.error(Log.REQUEST_FAIL)
print ; return ""
return reponse.getvalue().decode("utf-8")
def launch(self):
try:
while True:
user = input()
if user == "" or user == "EOF":
return
href_gpa = Epilader.INTRA_URL + "user/" + user + "/?format=json"
href_note = Epilader.INTRA_URL + "user/" + user + "/notes/?format=json"
if user[0] != '#':
gpa = self.find_gpa(self.request(href_gpa))
moyenne = self.find_moyenne(self.request(href_note))
self.log.write(user + "\t: " + str(gpa) + "\t: " + str(moyenne))
if gpa > 0:
self.datas.append([user, gpa, moyenne])
except (KeyboardInterrupt, EOFError):
print("KeyboardInterrupt") ; return
def sort(self):
self.datas.sort(key=lambda x: x[1], reverse=True)
def display(self):
rank = 1
for d in self.datas:
self.option.write(str(rank) + " " + d[0] + "\t" + str(d[1]) + "\t" + str(d[2]) + "\n")
rank += 1
