def get_selected_weathers(): try: ## obtain database credentials config = getConfig("/var/weather_config.json") api_key = config["key"] db_host = config["db_host"] db_user = config["db_user"] db_port = config["db_port"] db_name = config["db_name"] db_password = config["db_password"] ## establish the database connection db = Database(db_user=db_user, db_port=db_port, db_name=db_name, db_host=db_host, db_password=db_password) db.setup_db_connection() results = db.get_weather_for_all_cities() return jsonify(results), 200 except Exception as e: return jsonify({ "error": f"Something went wrong while requesting weather data. Error: {e}" }), 500
def listenToPort(port, callback): config = util.getConfig() # connect to midi print(f"Opening port {port}!") midi_in.open_port(port + 1) # read midi messages while True: event = midi_in.get_message() time.sleep(config['timeout'] / 1000.0) if event: print(event) config = util.getConfig() # live config updating bindings = config['bindings'][port] callback(event, bindings)
def uploadSpreadsheet(dlQueList): config = util.getConfig() dateStr = datetime.date.today().strftime("%Y-%m-%d") logList = [] try: fList = glob.glob(config['CSV']['DLPATH'] + '*.csv') fList = [os.path.basename(r) for r in fList] for dlQue in dlQueList: googleUtil.clear(dlQue.sheetId, "data") for dlQue in dlQueList: for file in fList: if (dlQue.fileName + dateStr) in file: list = getList(config['CSV']['DLPATH'] + file) if dlQue.addFlg == "TRUE": list.pop(0) googleUtil.uploadData(list, dlQue.sheetId, "data") logList.insert(0, ['upload成功_' + file]) googleUtil.uploadData(logList, config['GOOGLE']['SPREADSHEET'], config['GOOGLE']['SHEET_LOG']) except Exception as e: print(e) logList = [['error! ' + dateStr]] googleUtil.uploadData(logList, config['GOOGLE']['SHEET_LOG'])
def lightLoop(): global program_running b = util.connectBridge() if (b is None): print("Unable to connect to HUE bridge") return None config = util.getConfig("config/sesse_config.json") if (config is None): print("Unable to load config") return config loop_time = float(config['update_interval']) previous_score = 0 while (program_running): start_time = time.time() score = getPosition(config) if (not score is None and score != previous_score): color = getScoreColor(score) util.setLightsRGB(b, color) previous_score = score end_time = time.time() remaining_time = loop_time - (end_time - start_time) if (remaining_time > 0): time.sleep(remaining_time)
def initDe(self): self.base_url = "https://www.amazon.de/s/ref=nb_sb_noss_" self.threads = [] self.parser = util.getConfig() self.actual_result = [] self.max_search_count = int( self.parser.get("settings", "max_search_count")) self.rank_data = util.germanyRankData() self.proxy_list = util.getProxies(1, 3) self.agents = util.getUserAgent() self.base_headers = { "authority": self.parser.get("base_headers", "authority"), "method": self.parser.get("base_headers", "method"), # "path": "/mn/search/ajax/ref=nb_sb_noss_1?__mk_de_DE=%C3%85M%C3%85%C5%BD%C3%95%C3%91&url=search-alias%3Daps&field-keywords=gaming+headset+ps4&rh=i%3Aaps%2Ck%3Agaming+headset+ps4&fromHash=%2Fref%3Dsr_pg_3%3Frh%3Di%253Aaps%252Ck%253Agaming%2Bheadset%2Bps4%26page%3D3%26keywords%3Dgaming%2Bheadset%2Bps4%26ie%3DUTF8%26qid%3D1526454787§ion=ATF,BTF&fromApp=gp%2Fsearch&fromPage=results&fromPageConstruction=auisearch&version=2&oqid=1526457074&atfLayout=list", "scheme": self.parser.get("base_headers", "scheme"), "accept": self.parser.get("base_headers", "accept"), "accept-encoding": self.parser.get("base_headers", "accept-encoding"), "accept-language": self.parser.get("base_headers", "accept-language"), "cookie": self.parser.get("base_headers", "cookie") # "referer": "https://www.amazon.de/s/ref=nb_sb_noss_1?__mk_de_DE=%C3%85M%C3%85%C5%BD%C3%95%C3%91&url=search-alias%3Daps&field-keywords=gaming+headset+ps4&rh=i%3Aaps%2Ck%3Agaming+headset+ps4", # 'user-agent': rand_agent } self.base_query_str = { "__mk_de_DE": self.parser.get("base_query", "__mk_de_DE"), "url": self.parser.get("base_query", "url") }
def clear(sheetId, sheetName): config = util.getConfig() gc = prepare(config) wks = gc.open_by_key(sheetId).worksheet(sheetName) wks.clear()
def downloadCSV(dlQueList): config = util.getConfig() options = webdriver.ChromeOptions() driver = webdriver.Chrome(options=options,executable_path=config['CHROME']['PATH']) try: driver.get('https://hrbc-jp.porterscloud.com/common/navigation') # ログイン画面 driver.find_element_by_id('Model_LoginForm_company_login_id').send_keys(config['HRBC']['COMPANY']) driver.find_element_by_id('Model_LoginForm_username').send_keys(config['HRBC']['ID']) driver.find_element_by_id('Model_LoginForm_password').send_keys(config['HRBC']['PASS']) driver.find_element_by_id('login-form').submit() if len(driver.find_elements_by_class_name('ui-button-text-only')) > 0: driver.find_element_by_class_name('ui-button-text-only').click() time.sleep(5) for dlQue in dlQueList: download(driver, dlQue.url) except Exception as e: logging.error(traceback.format_exc()) finally: driver.quit()
def main(): config = getConfig() keys = config["Keys"] authToken = getCCFToken(keys) playlists = getTopNPlaylists("rainbow rock mountain", 60, authToken) print(pd.DataFrame(playlists).transpose())
def uploadData(data, sheetId, sheetName): config = util.getConfig() gc = prepare(config) sh = gc.open_by_key(sheetId) sh.values_append(sheetName, {'valueInputOption': 'USER_ENTERED'}, {'values': data})
def listJars(): """ Lists all prime times """ config = getConfig() fmtStr = "Jar {:<2} = {}ms" for key, value in config['Prime'].items(): click.echo(fmtStr.format(key, value))
def lambda_handler(event, context): config = getConfig() path = event['path'] if path.startswith(config['paths']['numbers']): return numbers(config, event) if path.startswith(config['paths']['messages']): return messages(config, event) return render(config, path)
def shift(): config = util.getConfig() shiftlist = [] getShiftData(config, 3) # printShift(config) for s in shiftlist: print(s.name, s.placeId, s.hour)
def parseConfig(): config = util.getConfig() practiceKey = "" liveKey = "" for configTuple in config.items("API"): if configTuple[0] == "practice_key": practiceKey = configTuple[1] elif configTuple[0] == "live_key": liveKey = configTuple[1] return practiceKey, liveKey
def update(jar, time): """ Update the prime time (in ms) for a jar (max 60 seconds) """ config = getConfig() if 'Prime' not in config: config['Prime'] = {} config['Prime'][str(jar)] = str(time) with open(configPath(), 'w') as configfile: config.write(configfile) click.echo("Jar #" + str(jar) + " updated to " + str(time) + "ms")
def sendSlack(fileName): config = util.getConfig() files = {'file': open(config['AIRSHIFT']['FILE'], 'rb')} param = { 'token' : config['SLACK']['TOKEN'], 'channels' : config['SLACK']['CHANNEL'], 'initial_comment' : fileName } res = requests.post( url="https://slack.com/api/files.upload", params=param, files=files)
def readConfigSheet(): config = util.getConfig() gc = prepare(config) wks = gc.open_by_key(config['GOOGLE']['SPREADSHEET']).worksheet( config['GOOGLE']['SHEET_CONFIG']) cell_list = wks.get_all_values() cell_list.pop(0) outList = [] for row in cell_list: outList.append(dlQue.DlQue(row[0], row[1], row[2], row[3])) return outList
def duty(): config = util.getConfig() dutyList = gsheet.getTodayDuty() mentionList = gsheet.getMentionList() # 打刻当番 # message = '本日の申請確認担当は<@' + util.getMention(mentionList, dutyList[0]) + '>です。'\ # '\n当日、10時までの申請分について対応してください。'\ # '\nマニュアル:https://infratop.docbase.io/posts/1538760' # slack.post(url=config['SLACK']['URL_ST'], text=message) # その他 message = '本日の当番です!'\ '\n学サポ日直 :<@' + util.getMention(mentionList, dutyList[0]) + '>'\ '\nメンサポ日直:<@' + util.getMention(mentionList, dutyList[1]) + '>'\ '\n昼会司会 :<@' + util.getMention(mentionList, dutyList[2]) + '>' slack.post(url=config['SLACK']['URL_LSI'], text=message)
connection.execute(statement) return True except Exception as e: print(f"Error while updating data. City: {new_data['city_name']}") print(e) return False # close the session def close_session(self): self.db_session.close() if __name__ == "__main__": ## Run this main when initializing an empty database cities = getCityNamesFromFile("static/ca.city.lst.json", MAJOR_CITIES) config = getConfig("/var/weather_config.json") api_key = config["key"] db_host = config["db_host"] db_user = config["db_user"] db_port = config["db_port"] db_name = config["db_name"] db_password = config["db_password"] ## Establish database connection db = Database(db_user=db_user, db_port=db_port, db_name=db_name, db_host=db_host, db_password=db_password) db.setup_db_connection() for city in cities: city_data = requests.get(f"http://api.openweathermap.org/data/2.5/weather?q={city},ca&APPID={api_key}")
def getSS(): config = util.getConfig() gc = prepare(config) return gc.open_by_key(config['GOOGLE']['SPREADSHEET'])
'''Program to formulate test scenarios''' import util import time import threading import Queue as queue UNKNOWNHOSTIP = str(util.getConfig("unknown_host_ip")) HOSTIP1 = util.getConfig("host_ip1") HOSTIP2 = util.getConfig("host_ip2") HOSTIP3 = util.getConfig("host_ip3") USERNAME = util.getConfig("host_username") PASSWORD = util.getConfig("host_password") SCRIPTPATH = util.getConfig("script_path") SELF = 'self' def simpleARPFlood(): '''Procedure to execute simple ARP flood''' print "attack started" statBefore = util.verifyPing(HOSTIP2, USERNAME, PASSWORD, SCRIPTPATH, HOSTIP3, 'beforeattack') q1 = queue.Queue() time.sleep(1) # Using threads to execute test and verify the test case simultaneously t1 = threading.Thread(target=util.ARPGenerator, args=(HOSTIP3, SELF)) t2 = threading.Thread(target=util.verifyPing, args=(HOSTIP2, USERNAME, PASSWORD, SCRIPTPATH, HOSTIP3, 'afterattack', q1)) t1.setDaemon(True) t2.setDaemon(True) t2.start() time.sleep(2) t1.start() result1 = q1.get() t1, t2, q1 = None, None, None
################################################################################ import xbmc, xbmcgui, xbmcplugin, xbmcaddon import os import util, simplelauncher ADDON_ID = 'emulator.tools.retroarch' addon = xbmcaddon.Addon(id=ADDON_ID) addon_dir = xbmc.translatePath(addon.getAddonInfo('path')) addonfolder = addon.getAddonInfo('path') icon = addonfolder + '/icon.png' fanart = addonfolder + '/fanart.jpg' if util.getConfig("simple_launcher_enabled") == "true": # Parse parameters parameters = util.parseParameters() if 'm' in parameters: simplelauncher.launchMenu(parameters) elif 'r' in parameters: simplelauncher.playGame(parameters) elif 'f' in parameters: simplelauncher.listGames(parameters, fanart, addon.getLocalizedString(30005)) else: simplelauncher.buildMenu(fanart, addon.getLocalizedString(30004)) # Ends list of items for xbmc util.endListing()
# ---------- 放置表情包 ---------- bqb_path = config.get('biaoqingbao', 'bqb_path') bqb_name = random.choice(os.listdir(bqb_path)) bqb_img = cv2.imread(os.path.join(bqb_path, bqb_name)) bqb_center_x = int( config.getfloat('biaoqingbao', 'bqb_center_x') * page_width) bqb_center_y = int( config.getfloat('biaoqingbao', 'bqb_center_y') * page_height) max_width = int(config.getfloat('biaoqingbao', 'max_width') * page_width) max_height = int( config.getfloat('biaoqingbao', 'max_height') * page_height) background = util.putImgToBackGr(bqb_img, background, bqb_center_x, bqb_center_y, max_width, max_height) cv2.imwrite('output_{}.png'.format(idx), background) filename = 'CFG.ini' config = util.getConfig(filename) for i in range(1, 7 + 1): main(config, i) date_str = config.get('date', 'date') date_obj = datetime.strptime(date_str, '%Y-%m-%d') date_obj += timedelta(days=1) date_str = date_obj.strftime('%Y-%m-%d') config.set('date', 'date', date_str)
def getWks(sheetName): config = util.getConfig() gc = prepare(config) return gc.open_by_key(config['GOOGLE']['SPREADSHEET']).worksheet(sheetName)
def buildMenu(fanart=None, searchString='SEARCH'): if util.getConfig("core_1_lib"): myParam = {} myParam['f'] = util.getConfig("core_1_folder") myParam['c'] = util.getCoreName(util.getConfig("core_1_lib")) myParam['l'] = util.getConfig("core_1_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_1_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_2_lib"): myParam = {} myParam['f'] = util.getConfig("core_2_folder") myParam['c'] = util.getCoreName(util.getConfig("core_2_lib")) myParam['l'] = util.getConfig("core_2_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_2_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_3_lib"): myParam = {} myParam['f'] = util.getConfig("core_3_folder") myParam['c'] = util.getCoreName(util.getConfig("core_3_lib")) myParam['l'] = util.getConfig("core_3_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_3_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_4_lib"): myParam = {} myParam['f'] = util.getConfig("core_4_folder") myParam['c'] = util.getCoreName(util.getConfig("core_4_lib")) myParam['l'] = util.getConfig("core_4_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_4_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_5_lib"): myParam = {} myParam['f'] = util.getConfig("core_5_folder") myParam['c'] = util.getCoreName(util.getConfig("core_5_lib")) myParam['l'] = util.getConfig("core_5_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_5_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_6_lib"): myParam = {} myParam['f'] = util.getConfig("core_6_folder") myParam['c'] = util.getCoreName(util.getConfig("core_6_lib")) myParam['l'] = util.getConfig("core_6_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_6_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_7_lib"): myParam = {} myParam['f'] = util.getConfig("core_7_folder") myParam['c'] = util.getCoreName(util.getConfig("core_7_lib")) myParam['l'] = util.getConfig("core_7_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_7_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_8_lib"): myParam = {} myParam['f'] = util.getConfig("core_8_folder") myParam['c'] = util.getCoreName(util.getConfig("core_8_lib")) myParam['l'] = util.getConfig("core_8_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_8_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_9_lib"): myParam = {} myParam['f'] = util.getConfig("core_9_folder") myParam['c'] = util.getCoreName(util.getConfig("core_9_lib")) myParam['l'] = util.getConfig("core_9_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_9_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_10_lib"): myParam = {} myParam['f'] = util.getConfig("core_10_folder") myParam['c'] = util.getCoreName(util.getConfig("core_10_lib")) myParam['l'] = util.getConfig("core_10_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_10_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_11_lib"): myParam = {} myParam['f'] = util.getConfig("core_11_folder") myParam['c'] = util.getCoreName(util.getConfig("core_11_lib")) myParam['l'] = util.getConfig("core_11_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_11_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_12_lib"): myParam = {} myParam['f'] = util.getConfig("core_12_folder") myParam['c'] = util.getCoreName(util.getConfig("core_12_lib")) myParam['l'] = util.getConfig("core_12_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_12_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_13_lib"): myParam = {} myParam['f'] = util.getConfig("core_13_folder") myParam['c'] = util.getCoreName(util.getConfig("core_13_lib")) myParam['l'] = util.getConfig("core_13_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_13_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_14_lib"): myParam = {} myParam['f'] = util.getConfig("core_14_folder") myParam['c'] = util.getCoreName(util.getConfig("core_14_lib")) myParam['l'] = util.getConfig("core_14_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_14_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) if util.getConfig("core_15_lib"): myParam = {} myParam['f'] = util.getConfig("core_15_folder") myParam['c'] = util.getCoreName(util.getConfig("core_15_lib")) myParam['l'] = util.getConfig("core_15_lib") myIcon = util.getCoreIcon(myParam['l']) util.addMenuItem(util.getCoreNiceName(util.getConfig("core_15_lib")), util.makeLink(myParam), icon=myIcon, thumbnail=None, folder=True, fanart=fanart) # Add direct call to retroarch menu myParam = {} myParam['m'] = "show+menu" util.addMenuItem(EMU_MENU_LABEL, util.makeLink(myParam), icon=None, thumbnail=None, folder=True, fanart=fanart)
def __init__(self, father, pwmIr, pwmWhite): exam = util.getExam() config = util.getConfig() # ____ JANELA DE PREVIEW self.camera = PiCamera() self.widthWindowPreview = 640 self.heightWindowPreview = 480 self.yControl = int((exam['monitorHeight'] / 2) - (self.heightWindowPreview / 2) - 135) self.xControl = int((exam['monitorWidth'] / 2) - (self.widthWindowPreview / 2)) for key in config['resolutions']: if key['resName'] == "Mode " + str(exam["cameraMode"]): self.camera.sensor_mode = exam["cameraMode"] self.camera.resolution = (key['width'], key['height']) self.camera.start_preview(fullscreen=False, window=(self.xControl, self.yControl, self.widthWindowPreview, self.heightWindowPreview)) # ____ JANELA DE CONTROLES widthWindowControl = 832 heightWindowControl = 230 yControl = int((exam['monitorHeight'] / 2) - (heightWindowControl / 2) + 230) xControl = int((exam['monitorWidth'] / 2) - (widthWindowControl / 2)) self.window = Toplevel() self.window.title("Preview") self.window.minsize(widthWindowControl, heightWindowControl) self.window.geometry('{}x{}+{}+{}'.format(widthWindowControl, heightWindowControl, xControl, yControl)) self.window.resizable(False, False) self.window.config(padx=5, pady=5) self.window.transient(father) self.window.focus_force() self.window.grab_set() self.pwmIr = pwmIr self.pwmWhite = pwmWhite self.root = Frame(self.window) self.root.pack(fill="both", expand="True") # Frame dos controles f_controles = Frame(self.root, bg="blue") f_controles.grid(column=0, row=0, sticky=N + S + E + W) # Coluna de controle dos leds f_led = Frame(f_controles, border=1, relief="groove") f_led.grid(column=0, row=0) Label(f_led, text="Luminosidade").grid(row=0, column=0, columnspan=4, padx=5, pady=5) Label(f_led, text="IR").grid(column=0, row=1, sticky=N + S + E + W, padx=5, pady=5) self.irScale = Scale(f_led, from_=0, to=100, showvalue="False", orient="horizontal", command=self.ledIrChange) self.irScale.grid(column=1, row=1, sticky=N + S + E + W, padx=5, pady=5) self.irScale.set(exam['ledIr']) self.irValue = Label(f_led, text="%03d" % exam['ledIr']) self.irValue.grid(column=2, row=1, sticky=N + S + E + W, padx=5, pady=5) Label(f_led, text="BR").grid(column=0, row=2, sticky=N + S + E + W, padx=5, pady=5) self.brScale = Scale(f_led, from_=0, to=100, showvalue="False", orient="horizontal", command=self.ledBrChange) self.brScale.grid(column=1, row=2, sticky=N + S + E + W, padx=5, pady=5) self.brScale.set(exam['ledBr']) self.brValue = Label(f_led, text="%03d" % exam['ledBr']) self.brValue.grid(column=2, row=2, sticky=N + S + E + W, padx=5, pady=5) # Coluna de controles rápidos fFast = Frame(f_controles, border=1, relief="groove") fFast.grid(column=1, row=0) Label(fFast, text="Controles Rápidos").grid(row=0, column=0, columnspan=6, padx=5, pady=5) Label(fFast, text="Brilho").grid(column=0, row=1, sticky=N + S + E + W, padx=5, pady=5) self.brilhoScale = Scale(fFast, from_=0, to=100, showvalue="False", orient="horizontal", command=self.brilhoChange) self.brilhoScale.grid(column=1, row=1, sticky=N + S + E + W, padx=5, pady=5) self.brilhoScale.set(exam['brilho']) self.brilhoValue = Label(fFast, text="%03d" % exam['brilho']) self.brilhoValue.grid(column=2, row=1, sticky=N + S + E + W, padx=5, pady=5) Label(fFast, text="Contraste").grid(column=0, row=2, sticky=N + S + E + W, padx=5, pady=5) self.contrasteScale = Scale(fFast, from_=0, to=100, showvalue="False", orient="horizontal", command=self.contrasteChange) self.contrasteScale.grid(column=1, row=2, sticky=N + S + E + W, padx=5, pady=5) self.contrasteScale.set(exam['contraste']) self.contrasteValue = Label(fFast, text="%03d" % exam['contraste']) self.contrasteValue.grid(column=2, row=2, sticky=N + S + E + W, padx=5, pady=5) Label(fFast, text="Saturação").grid(column=3, row=1, sticky=N + S + E + W, padx=5, pady=5) self.saturacaoScale = Scale(fFast, from_=0, to=100, showvalue="False", orient="horizontal", command=self.saturacaoChange) self.saturacaoScale.grid(column=4, row=1, sticky=N + S + E + W, padx=5, pady=5) self.saturacaoScale.set(exam['saturacao']) self.saturacaoValue = Label(fFast, text="%03d" % exam['saturacao']) self.saturacaoValue.grid(column=5, row=1, sticky=N + S + E + W, padx=5, pady=5) Label(fFast, text="Nitidez").grid(column=3, row=2, sticky=N + S + E + W, padx=5, pady=5) self.nitidezScale = Scale(fFast, from_=0, to=100, showvalue="False", orient="horizontal", command=self.nitidezChange) self.nitidezScale.grid(column=4, row=2, sticky=N + S + E + W, padx=5, pady=5) self.nitidezScale.set(exam['nitidez']) self.nitidezValue = Label(fFast, text="%03d" % exam['nitidez']) self.nitidezValue.grid(column=5, row=2, sticky=N + S + E + W, padx=5, pady=5) # Coluna de cores fCores = Frame(f_controles, border=1, relief="groove") fCores.grid(column=3, row=0, rowspan=2, sticky=N + S + E + W) Label(fCores, text="Controle de cores").grid(row=0, column=0, columnspan=6, padx=5, pady=5) self.vCor = BooleanVar() self.checkCores = Checkbutton(fCores, text="Filtro de cores", var=self.vCor, offvalue=False, onvalue=True, command=self.enableCores) self.checkCores.grid(column=0, row=1, columnspan=3, sticky=N + S + E + W) Label(fCores, text="R").grid(column=0, row=2, sticky=N + S + E + W, padx=5, pady=5) self.rScale = Scale(fCores, from_=0, to=255, showvalue="False", orient="horizontal", command=self.rChange) self.rScale.grid(column=1, row=2, sticky=N + S + E + W, padx=5, pady=5) self.rScale.set(exam['rColor']) self.rValue = Label(fCores, text="%03d" % exam['rColor']) self.rValue.grid(column=2, row=2, sticky=N + S + E + W, padx=5, pady=5) Label(fCores, text="G").grid(column=0, row=3, sticky=N + S + E + W, padx=5, pady=5) self.gScale = Scale(fCores, from_=0, to=255, showvalue="False", orient="horizontal", command=self.gChange) self.gScale.grid(column=1, row=3, sticky=N + S + E + W, padx=5, pady=5) self.gScale.set(exam['gColor']) self.gValue = Label(fCores, text="%03d" % exam['gColor']) self.gValue.grid(column=2, row=3, sticky=N + S + E + W, padx=5, pady=5) Label(fCores, text="B").grid(column=0, row=4, sticky=N + S + E + W, padx=5, pady=5) self.bScale = Scale(fCores, from_=0, to=255, showvalue="False", orient="horizontal", command=self.bChange) self.bScale.grid(column=1, row=4, sticky=N + S + E + W, padx=5, pady=5) self.bScale.set(exam['bColor']) self.bValue = Label(fCores, text="%03d" % exam['bColor']) self.bValue.grid(column=2, row=4, sticky=N + S + E + W, padx=5, pady=5) self.canvasCor = Canvas(fCores, width=20, height=20) self.canvasCor.grid(column=0, row=5, columnspan=3, sticky=N + S + E + W, padx=5, pady=5) self.updateCanvasCor(exam['rColor'], exam['gColor'], exam['bColor']) if exam['colorEfect'] is True: self.checkCores.select() self.vCor.set(True) else: self.checkCores.deselect() self.vCor.set(False) self.enableCores() # Linha de captura fCaptura = Frame(f_controles, border=1, relief="groove") fCaptura.grid(column=0, row=1, columnspan=2, sticky=N + S + E + W) Label(fCaptura, text="Captura").grid(row=0, column=0, columnspan=6, padx=5, pady=5) Label(fCaptura, text="Modo de captura").grid(row=1, column=0, sticky="W", padx=3, pady=3) self.SensorModeCombo = ttk.Combobox(fCaptura, state='readonly', width=60) self.SensorModeCombo.grid(row=1, column=1, columnspan=2, sticky=W + E, padx=3, pady=3) self.SensorModeCombo['values'] = [ \ 'Mode 1: to 1920x1080 1-30 fps ', 'Mode 2: to 2592x1944 1-15 fps Image', 'Mode 3: to 2592x1944 0.1666-1 fps Image', 'Mode 4: to 1296x972 1-42 fps', 'Mode 5: to 1296x730 1-49 fps', 'Mode 6: to 640x480 42.1-60 fps', 'Mode 7: to 640x480 60.1-90 fps' ] self.SensorModeCombo.current(exam['cameraMode'] - 1) self.SensorModeCombo.bind('<<ComboboxSelected>>', self.sensorModeChanged) # FrameRate Label(fCaptura, text="Frame Rate:").grid(column=0, row=2, sticky=W, padx=3, pady=3) self.fpsScale = Scale(fCaptura, resolution=0.01, length=450, showvalue="False", orient="horizontal", command=self.fpsChange) self.fpsScale.grid(column=1, row=2, sticky=E + W, padx=5, pady=5) for key in config['resolutions']: if key['resName'] == "Mode " + str(self.SensorModeCombo.current() + 1): self.fpsScale.config(to=key['maxfps'], from_=key['minfps']) self.fpsScale.set(exam['fps']) self.fpsValue = Label(fCaptura, text=exam['fps']) self.fpsValue.grid(column=2, row=2, sticky=E, padx=5, pady=5) #Frame dos botões fButtons = Frame(self.root) fButtons.grid(column=0, row=1, pady=5) self.cancelar = Button(fButtons, text="Descartar configurações", command=lambda: self._close()).grid(column=0, row=0, padx=5, pady=5) self.gravar = Button(fButtons, text="Salvar Configurações", command=lambda: self._salvar()).grid(column=1, row=0, padx=5, pady=5) self.window.protocol("WM_DELETE_WINDOW", self._close) self.window.mainloop()
'''This program will connect to the DELTA Agent Manager and execute the layer 2 attack requested by the user ''' import socket import time import sys import struct import attack_test import util AGENTMANAGERIP = util.getConfig("agent_manager_ip") AGENTMANAGERPORT = util.getConfig("agent_manager_port") BUFFERLEN = 1024 clientSocket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) try: clientSocket.connect((AGENTMANAGERIP, int(AGENTMANAGERPORT))) # Connect to DELTA Agent Manager size = len('L2HostAgent') clientSocket.send(struct.pack("!H", size)) clientSocket.send('L2HostAgent') # Send the Agent name except Exception as e: print 'Unable to connect to server', e sys.exit() while 1: try: data = clientSocket.recv(BUFFERLEN) print "Agent Manager sent :"+data data = data.strip() time.sleep(5)
def display(req): config = getConfig() return render(req, 'display.html', {'config': config})
def _gravar(self): global exam if (self._validate()): exam = util.getExam() config = util.getConfig() exam['saveLocation'] = self.vDirectory.get() exam['exMin'] = self.v_min.get() exam['exSeg'] = self.v_seg.get() tempo = int(self.v_min.get()) * 60 + int(self.v_seg.get()) util.setExam(exam) red = exam['rColor'] green = exam['gColor'] blue = exam['bColor'] y = float(0.299 * red) + float(0.587 * green) + float(0.114 * blue) u = float(0.492 * (blue - y)) v = float(0.877 * (red - y)) if (platform.system() == "Linux"): self.pwmIr.ChangeDutyCycle(exam['ledIr']) self.pwmWhite.ChangeDutyCycle(exam['ledBr']) with picamera.PiCamera() as camera: camera.sensor_mode = exam["cameraMode"] for key in config['resolutions']: if key['resName'] == "Mode " + str(exam["cameraMode"]): camera.resolution = (key['width'], key['height']) camera.framerate = exam['fps'] camera.brightness = exam['brilho'] camera.contrast = exam['contraste'] camera.sharpness = exam['nitidez'] camera.saturation = exam['saturacao'] if exam['colorEfect']: camera.color_effects = (u, v) camera.start_preview() camera.start_recording('temp.h264') camera.wait_recording(tempo) camera.stop_recording() camera.stop_preview() camera.close() self.pwmIr.ChangeDutyCycle(0) self.pwmWhite.ChangeDutyCycle(0) now = datetime.now() nowstr = now.strftime("%Y-%m-%d %H:%M:%S") command = "MP4Box -fps %d -add temp.h264 exame.mp4" % ( exam['fps']) subprocess.check_output(command, shell=True) location = os.getcwd() + '/temp.h264' os.remove(location) # remove o arquivo temporario location = os.getcwd() + '/exame.mp4' if os.path.isfile("exame.mp4"): result = messagebox.askquestion( "Salvar", "Deseja salvar o arquivo?") if result == 'yes': nowstr = now.strftime("%Y%m%d%H%M%S") pasta = exam['saveLocation'] + '/' + nowstr os.mkdir(pasta) os.link("exame.mp4", str(pasta + "/exame.mp4")) os.remove(location) # remove o arquivo temporario # Cria arquivo de dados dados = { # Dados da aquisição "data": now.strftime("%Y-%m-%d"), "hora": now.strftime("%H:%M:%S"), "ledIr": exam["ledIr"], "ledBr": exam["ledBr"], "contraste": exam["contraste"], "saturacao": exam["saturacao"], "nitidez": exam["nitidez"], "brilho": exam["brilho"], "cameraMode": exam["cameraMode"], "fps": exam['fps'], "colorEfect": exam['colorEfect'], "rColor": exam['rColor'], "bColor": exam['gColor'], "gColor": exam['bColor'], # Dados do paciente "pacienteAnonimo": self.pacienteAnonimo.get(), "nome": self.eNome.get(), "dataNascimento": self.eNascimento.get(), "sexo": self.vSexo.get(), "estadoCivil": self.comboECivil.get(), "profisao": self.eProfisao.get(), "telefone": self.eTelefone.get(), "problemaSaude": self.vPSaude.get(), "tProblemaSaude": self.ePSaude.get(), "medicamento": self.vMedicamento.get(), "tMedicamento": self.eMedicamento.get(), "tratamento": self.vTratamento.get(), "tTratamento": self.eTratamento.get(), "alergia": self.vAlergia.get(), "tAlergia": self.eAlergia.get(), "lentes": self.vLentes.get(), # Obsercações "observacoes": self.tObservacao.get("1.0", END) } util.setDados(pasta, dados) else: messagebox.showerror( "Erro", "Algo deu errado na gravação do arquivo") else: print("Faria um vídeo de ", tempo, " segundos se estivesse no raspberry")
def __init__(self): super().__init__() exam = util.getExam() config = util.getConfig() self.l_footer.set("Modo de captura") # __________________________________________________________________________________________________________ # Frame Raiz root = Frame(self, padx=3, pady=3) root.pack(expand="True", fill="both") # __________________________________________________________________________________________________________ # Frame Dados dados = Frame(root, border=1, relief="raised") dados.pack(expand="True", fill="both") dadosPaciente = Frame(dados, border=1, relief="groove") dadosPaciente.grid(row=0, column=0, sticky="W", padx=3, pady=3) Label(dadosPaciente, text="Dados do paciente", font='bold').grid(row=0, column=0, sticky=W, padx=3, pady=3) self.pacienteAnonimo = BooleanVar() self.pacienteAnonimo.set(False) self.checkAnonimo = Checkbutton(dadosPaciente, text="Paciente anônimo", var=self.pacienteAnonimo, offvalue=False, onvalue=True, command=self._checkAnonimo) self.checkAnonimo.grid(column=6, row=0, sticky=E) # Dados linha 1 Label(dadosPaciente, text="Nome").grid(row=1, column=0, sticky="W", padx=3, pady=3) self.eNome = Entry(dadosPaciente) self.eNome.grid(row=1, column=1, columnspan=7, sticky=W + E, padx=3, pady=3) # Dados linha 2 Label(dadosPaciente, text="Data de nascimento").grid(row=2, column=0, sticky="W", padx=3, pady=3) self.eNascimento = Entry(dadosPaciente, width=10) self.eNascimento.grid(row=2, column=1, sticky=W + E, padx=3, pady=3) Label(dadosPaciente, text="Sexo").grid(row=2, column=2, sticky=W + E, padx=3, pady=3) self.vSexo = StringVar() self.vSexo.set("M") self.radioM = Radiobutton(dadosPaciente, text="Masculino", variable=self.vSexo, value="M") self.radioM.grid(row=2, column=3, sticky=W + E, padx=3, pady=3) self.radioF = Radiobutton(dadosPaciente, text="Feminino", variable=self.vSexo, value="F") self.radioF.grid(row=2, column=4, sticky=W + E, padx=3, pady=3) Label(dadosPaciente, text="Estado civil").grid(row=2, column=5, sticky=W + E, padx=3, pady=3) self.comboECivil = ttk.Combobox(dadosPaciente, state='readonly', width=10) self.comboECivil.grid(row=2, column=6, columnspan=2, sticky=W + E, padx=3, pady=3) self.comboECivil['values'] = [ \ 'Solteiro', 'Casado', 'Divorciado', 'Separado', 'Viúvo', ] # Dados linha 3 Label(dadosPaciente, text="Profisão").grid(row=3, column=0, sticky="W", padx=3, pady=3) self.eProfisao = Entry(dadosPaciente) self.eProfisao.grid(row=3, column=1, columnspan=4, sticky=W + E, padx=3, pady=3) Label(dadosPaciente, text="Telefone").grid(row=3, column=5, sticky="W", padx=3, pady=3) self.eTelefone = Entry(dadosPaciente, width=15) self.eTelefone.grid(row=3, column=6, sticky=W + E, padx=3, pady=3) # Dados linha 4 fAnamnese = Frame(dadosPaciente, border=1, relief="groove") fAnamnese.grid(row=4, column=0, columnspan=7, sticky=W, padx=3, pady=3) Label(fAnamnese, text="Anamnese", font='bold').grid(row=0, column=0, sticky=W, padx=3, pady=3) # Anamnese linha 1 Label(fAnamnese, text="Possui problema de saúde?").grid(row=1, column=0, sticky=W, padx=3, pady=3) self.vPSaude = StringVar() self.vPSaude.set("N") self.radioSPSaude = Radiobutton(fAnamnese, text="Sim", variable=self.vPSaude, value="S", command=self._changePSaude) self.radioSPSaude.grid(row=1, column=1, sticky=W, padx=3, pady=3) self.radioNPSaude = Radiobutton(fAnamnese, text="Não", variable=self.vPSaude, value="N", command=self._changePSaude) self.radioNPSaude.grid(row=1, column=2, sticky=W, padx=3, pady=3) Label(fAnamnese, text="Qual?").grid(row=1, column=3, sticky=W, padx=3, pady=3) self.ePSaude = Entry(fAnamnese, width=27) self.ePSaude.config(state='disabled') self.ePSaude.grid(row=1, column=4, sticky=W + E, padx=3, pady=3) # Anamnese linha 2 Label(fAnamnese, text="Usa algum medicamento?").grid(row=2, column=0, sticky=W, padx=3, pady=3) self.vMedicamento = StringVar() self.vMedicamento.set("N") self.radioSMedicamento = Radiobutton(fAnamnese, text="Sim", variable=self.vMedicamento, value="S", command=self._changeMedicamento) self.radioSMedicamento.grid(row=2, column=1, sticky=W, padx=3, pady=3) self.radioNMedicamento = Radiobutton(fAnamnese, text="Não", variable=self.vMedicamento, value="N", command=self._changeMedicamento) self.radioNMedicamento.grid(row=2, column=2, sticky=W, padx=3, pady=3) Label(fAnamnese, text="Qual?").grid(row=2, column=3, sticky=W, padx=3, pady=3) self.eMedicamento = Entry(fAnamnese) self.eMedicamento.config(state='disabled') self.eMedicamento.grid(row=2, column=4, sticky=W + E, padx=3, pady=3) # Anamnese linha 3 Label(fAnamnese, text="Está sob algum tratamento médico?").grid(row=3, column=0, sticky=W, padx=3, pady=3) self.vTratamento = StringVar() self.vTratamento.set("N") self.radioSTratamento = Radiobutton(fAnamnese, text="Sim", variable=self.vTratamento, value="S", command=self._changeTratamento) self.radioSTratamento.grid(row=3, column=1, sticky=W, padx=3, pady=3) self.radioNTratamento = Radiobutton(fAnamnese, text="Não", variable=self.vTratamento, value="N", command=self._changeTratamento) self.radioNTratamento.grid(row=3, column=2, sticky=W, padx=3, pady=3) Label(fAnamnese, text="Por que?").grid(row=3, column=3, sticky=W, padx=3, pady=3) self.eTratamento = Entry(fAnamnese) self.eTratamento.config(state='disabled') self.eTratamento.grid(row=3, column=4, sticky=W + E, padx=3, pady=3) # Anamnese linha 4 Label(fAnamnese, text="Possui alergia a algum medicamento?").grid(row=4, column=0, sticky=W, padx=3, pady=3) self.vAlergia = StringVar() self.vAlergia.set("N") self.radioSAlergia = Radiobutton(fAnamnese, text="Sim", variable=self.vAlergia, value="S", command=self._changeAlergia) self.radioSAlergia.grid(row=4, column=1, sticky=W, padx=3, pady=3) self.radioNAlergia = Radiobutton(fAnamnese, text="Não", variable=self.vAlergia, value="N", command=self._changeAlergia) self.radioNAlergia.grid(row=4, column=2, sticky=W, padx=3, pady=3) Label(fAnamnese, text="Qual?").grid(row=4, column=3, sticky=W, padx=3, pady=3) self.eAlergia = Entry(fAnamnese) self.eAlergia.config(state='disabled') self.eAlergia.grid(row=4, column=4, sticky=W + E, padx=3, pady=3) # Anamnese linha 5 Label(fAnamnese, text="Usa lentes corretivas?").grid(row=5, column=0, sticky="W", padx=3, pady=3) self.vLentes = StringVar() self.vLentes.set("N") self.radioLLentes = Radiobutton(fAnamnese, text="Lentes", variable=self.vLentes, value="L") self.radioLLentes.grid(row=5, column=1, sticky=W, padx=3, pady=3) self.radioOLentes = Radiobutton(fAnamnese, text="Óculos", variable=self.vLentes, value="O") self.radioOLentes.grid(row=5, column=2, sticky=W, padx=3, pady=3) self.radioNLentes = Radiobutton(fAnamnese, text="Não", variable=self.vLentes, value="N") self.radioNLentes.grid(row=5, column=3, sticky=W, padx=3, pady=3) observacao = Frame(dados, border=1, relief="groove") observacao.grid(row=0, column=1, sticky=E, padx=3, pady=3) Label(observacao, text="Observações").grid(row=0, column=0, columnspan=3, sticky=W, padx=3, pady=3) self.tObservacao = Text(observacao, height=17, width=18) self.tObservacao.grid(row=1, column=0, columnspan=3, sticky=W + E, padx=3, pady=3) exame = Frame(dados, border=1, relief="groove") exame.grid(row=1, column=0, columnspan=2, sticky=W + E, padx=3, pady=3) Label(exame, text="Exame").grid(row=0, column=0, columnspan=3, sticky="W", padx=3, pady=3) Label(exame, text="Local").grid(row=1, column=0, sticky="W", padx=3, pady=3) self.vDirectory = StringVar() if os.path.exists(exam['saveLocation']): self.vDirectory.set(exam['saveLocation']) else: self.vDirectory.set(os.getcwd()) self.directory = Entry(exame, textvariable=self.vDirectory, width=88, state="readonly") self.directory.grid(row=1, column=1, sticky=E + W, padx=3, pady=3) self.bPath = Button(exame, text="Localizar", command=lambda: self._path()) self.bPath.grid(row=1, column=2, sticky=E, padx=3, pady=3) # __________________________________________________________________________________________________________ # Frame Botões buttons = Frame(root) buttons.pack(side="bottom", fill="x") # Botão de gravar e preview self.gravar = Button(buttons, text="Iniciar gravação", command=lambda: self._gravar()) self.gravar.pack(side="right", fill="y", expand=False, padx=5, pady=5) self.preview = Button(buttons, text="Preview", command=lambda: self._preview()) self.preview.pack(side="right", fill="y", expand=False, padx=5, pady=5) # Segundos self.v_seg = StringVar() self.v_seg.set(exam['exSeg']) Label(buttons, text="seg").pack(side="right", fill="y", expand=False, padx=5, pady=5) self.eSeg = Entry(buttons, width=3, textvariable=self.v_seg) self.eSeg.pack(side="right", fill="y", expand=False, padx=5, pady=5) # Minutos self.v_min = StringVar() self.v_min.set(exam['exMin']) Label(buttons, text="min").pack(side="right", fill="y", expand=False, padx=5, pady=5) self.eMin = Entry(buttons, width=3, textvariable=self.v_min) self.eMin.pack(side="right", fill="y", expand=False, padx=5, pady=5) Label(buttons, text="Tempo de exposição").pack(side="right", fill="y", expand=False, padx=5, pady=5) # __________________________________________________________________________________________________________ # Configuração dos pinos de IO do Raspberry # Configura para não mostrar alertas gpio.setwarnings(False) # Configurando GPIO gpio.setmode(gpio.BOARD) gpio.setup(38, gpio.OUT) gpio.setup(40, gpio.OUT) # Configurando o PWM com os valores iniciais de frequencia e dutycicle self.pwmIr = gpio.PWM(38, 200) self.pwmIr.start(0) self.pwmWhite = gpio.PWM(40, 200) self.pwmWhite.start(0)
def __init__(self, father, directory): super().__init__() self.directory = directory self.father = father self.pos = [] self.posX = [] self.posY = [] self.numFrame = 1 self.flagDadosPaciente = False self.flagDadosAnamnes = False self.flagObservacoes = False if (self._validate(self.directory)): self.cap = cv2.VideoCapture(directory + "/exame.mp4") self.frame_seq = int(self.cap.get(7) - 1) procDados = open(directory + "/dados.txt", "r") for linha in procDados: tmp = linha.split("\t") self.pos.append(int(tmp[0])) self.posX.append(int(tmp[1])) self.posY.append(int(tmp[2])) procDados.close() root = Frame(self, padx=3, pady=3, width=200) root.pack(expand="False", fill="both") cabecalho = Frame(self, padx=3, pady=3) cabecalho.pack(expand=True, fill="x") dados = Frame(cabecalho, padx=3, pady=3, relief="groove", border=3) dados.pack(expand=True, fill="both", side=LEFT) if os.path.isfile(self.directory + "/dados.json"): dados.grid_columnconfigure(0, weight=40) dados.grid_columnconfigure(1, weight=40) dados.grid_columnconfigure(2, weight=40) dados.grid_columnconfigure(3, weight=40) dadosExame = util.getDados(directory) config = util.getConfig() f1 = Frame(dados, padx=3, pady=3) f1.grid(column=0, row=0, sticky=W + S + N + E) Label(f1, text="Dados de captura:", font='Helvetica 10 bold').grid(column=0, row=0, sticky=W) width = StringVar() height = StringVar() for key in config['resolutions']: if key['resName'] == "Mode " + str( dadosExame['cameraMode']): width.set("Comprimento: " + str(key['width']) + "px") height.set("Altura: " + str(key['height']) + "px") Label(f1, textvariable=width).grid(column=0, row=1, sticky=W) Label(f1, textvariable=height).grid(column=0, row=2, sticky=W) fps = StringVar() fps.set("FPS: " + str(dadosExame['fps'])) Label(f1, textvariable=fps).grid(column=0, row=3, sticky=W) data = StringVar() data.set("Data: " + dadosExame['data']) Label(f1, textvariable=data).grid(column=0, row=4, sticky=W) hora = StringVar() hora.set("Horário: " + dadosExame['hora']) Label(f1, textvariable=hora).grid(column=0, row=5, sticky=W) f2 = Frame(dados, padx=3, pady=3) f2.grid(column=1, row=0, sticky=W + S + N + E) Label(f2, text="Luminosidade:", font='Helvetica 10 bold').grid(column=0, row=0, columnspan=4, sticky=W) ledIr = StringVar() ledIr.set("IR: " + str(dadosExame['ledIr'])) Label(f2, textvariable=ledIr).grid(column=0, row=1, sticky=W) ledBr = StringVar() ledBr.set("BR: " + str(dadosExame['ledBr'])) Label(f2, textvariable=ledBr).grid(column=0, row=2, sticky=W) f3 = Frame(dados, padx=3, pady=3) f3.grid(column=2, row=0, sticky=W + S + N + E) Label(f3, text="Imagem:", font='Helvetica 10 bold').grid(column=0, row=0, sticky=W) contraste = StringVar() contraste.set("Contraste: " + str(dadosExame['contraste'])) Label(f3, textvariable=contraste).grid(column=0, row=1, sticky=W) saturacao = StringVar() saturacao.set("Saturacao: " + str(dadosExame['saturacao'])) Label(f3, textvariable=saturacao).grid(column=0, row=2, sticky=W) nitidez = StringVar() nitidez.set("Nitidez: " + str(dadosExame['nitidez'])) Label(f3, textvariable=nitidez).grid(column=0, row=3, sticky=W) brilho = StringVar() brilho.set("Brilho: " + str(dadosExame['brilho'])) Label(f3, textvariable=brilho).grid(column=0, row=4, sticky=W) f4 = Frame(dados, padx=3, pady=3) f4.grid(column=3, row=0, sticky=W + S + N + E) if (dadosExame['colorEfect'] is False): Label(f4, text="Efeito de cor: Não", font='Helvetica 10 bold').grid(column=0, row=0, sticky=W) else: Label(f4, text="Efeito de cor: Sim", font='Helvetica 10 bold').grid(column=0, row=0, sticky=W) rColor = StringVar() rColor.set("R: " + str(dadosExame['rColor'])) Label(f4, textvariable=rColor).grid(column=0, row=1, sticky=W) gColor = StringVar() gColor.set("G: " + str(dadosExame['gColor'])) Label(f4, textvariable=gColor).grid(column=0, row=2, sticky=W) bColor = StringVar() bColor.set("B: " + str(dadosExame['bColor'])) Label(f4, textvariable=bColor).grid(column=0, row=3, sticky=W) else: Label( dados, text="Não foi possível encontrar o arquivo de dados").grid( column=0, row=0, sticky=W) display = Frame(cabecalho, padx=3, pady=3, relief="groove", border=3) display.pack(expand=False, fill="both", side=RIGHT) self.imgDisplay = Canvas(display, width=173, height=130) self.imgDisplay.grid(column=0, row=0, columnspan=3, sticky=W) btnBefore = Button(display, text="<", width=5, command=self._frameBefore) btnBefore.grid(column=0, row=1, sticky=W) self.time = StringVar() self.time.set(self.numFrame) eTempo = Entry(display, textvariable=self.time, width=4) eTempo.bind("<Return>", self._setTempo) eTempo.grid(column=1, row=1, sticky=E + W) btnAfter = Button(display, text=">", width=5, command=self._frameAfter) btnAfter.grid(column=2, row=1, sticky=E) botoes = Frame(cabecalho, padx=3, pady=3, relief="groove", border=3) botoes.pack(expand=False, fill="both", side=RIGHT) btnPaciente = Button( botoes, text="Paciente", width=10, command=lambda: self._dadosPaciente(self.directory)) btnPaciente.grid(column=0, row=0, sticky=W) btnAnamnese = Button( botoes, text="Anamnese", width=10, command=lambda: self._dadosAnamnese(self.directory)) btnAnamnese.grid(column=0, row=1, sticky=W) btnObservacoes = Button( botoes, text="Observações", width=10, command=lambda: self._observacoes(self.directory)) btnObservacoes.grid(column=0, row=2, sticky=W) btnExportar = Button(botoes, text="Exportar", width=10, command=lambda: self._exportar()) btnExportar.grid(column=0, row=3, sticky=W) self.v_posX = StringVar() self.v_posX.set("X = " + str(self.posX[self.numFrame])) lPosX = Label(botoes, textvariable=self.v_posX) lPosX.grid(column=0, row=4, sticky=W) self.v_posY = StringVar() self.v_posY.set("Y = " + str(self.posY[self.numFrame])) lPosY = Label(botoes, textvariable=self.v_posY) lPosY.grid(column=0, row=5, sticky=W) # --------------- GRÁFICO DE X ------------------- chartX = Figure(figsize=(10, 2), facecolor='white') self.xAxis = chartX.add_subplot(111) # 1 row, 1 column self.xTValues = self.pos self.xValues = self.posX self.xTimeBar = [np.min(self.posX), np.max(self.posX)] self.xAxis.plot(self.xTValues, self.xValues) self.xAxis.plot([self.numFrame, self.numFrame], self.xTimeBar) self.xAxis.set_ylabel('Posição X') self.xAxis.set_xlabel('Tempo') self.xAxis.grid() self.canvasX = FigureCanvasTkAgg(chartX, master=self) self.canvasX._tkcanvas.pack() # --------------- GRÁFICO DE Y ------------------- chartY = Figure(figsize=(10, 2), facecolor='white') self.yAxis = chartY.add_subplot(111) # 1 row, 1 column self.yTValues = self.pos self.yValues = self.posY self.yTimeBar = [np.min(self.posY), np.max(self.posY)] self.yAxis.plot(self.yTValues, self.yValues) self.yAxis.plot([self.numFrame, self.numFrame], self.yTimeBar) self.yAxis.set_ylabel('Posição Y') self.yAxis.set_xlabel('Tempo') self.yAxis.grid() self.canvasY = FigureCanvasTkAgg(chartY, master=self) self.canvasY._tkcanvas.pack() self.showFrame(self.numFrame) else: image = Image.open("resources/horus.png") image = image.resize((580, 168), Image.ANTIALIAS) imagem = ImageTk.PhotoImage(image) w = Label(self, image=imagem) w.imagem = imagem w.pack(expand=True)
from os import listdir from os.path import isfile, join import os import re import util config = util.getConfig() basePath = config.basePath dataPath = "/data" os.chdir(basePath + "/external") files = [f for f in listdir(basePath + dataPath) if isfile(join(basePath + dataPath, f))] if len(files) < 0: print "No file found." else: for f in files: path = basePath + dataPath + "/" + f date = re.sub('\.json.gz$', '', f) os.system("sudo ruby flatten.rb -i " + path + " -o ../flatten/" + date) os.remove(basePath + dataPath + "/" + f)
import string import sys import hashlib from math import sqrt import features import os import util import pickle import random from sklearn.ensemble import RandomForestClassifier from nltk.parse.stanford import StanfordDependencyParser weight = 0 ACCURACY_THRESHOLD = 0.03 conf = util.getConfig() toBool = lambda str: True if str == "True" else False DEBUG_ASSOC = toBool(conf["DEBUG"]["assoc"]) DEBUG_WEIGHT = toBool(conf["DEBUG"]["weight"]) DEBUG_ITEMID = toBool(conf["DEBUG"]["itemid"]) DEBUG_MATCH = toBool(conf["DEBUG"]["match"]) STATEMENTS = [ "Thanks, I've made a note of that.", "Thanks for telling me that.", "OK, I've stored that information.", "OK, I've made a note of that." ] JAVA_HOME = conf["Java"]["bin"] STANFORD_NLP = conf["StanfordNLP"]["corejar"] STANFORD_MODEL = conf["StanfordNLP"]["modelsjar"]