def main(): Core = CorePy("","kppv") sys.stdout.write("CorePy initialized ...\n") send_to_electron = Talk(1) send_to_electron.send(b'SYNC') urls = send_to_electron.recv() urls = json.loads(urls) sys.stdout.write("\nNumber of files: "+str(len(urls))) sys.stdout.write(str(urls)) for i in range(0, len(urls)): run(urls[i], Core) data = tojson([Core.image.content_list, Core.image.class_list]) # send data to electron and receive output send_to_electron.send(str(data)) output = send_to_electron.recv() # get the right format! output = json.loads(output) update_class_list(output,Core) Core.train_predictor() # data = tojson([Core.image.content_list, Core.image.class_list]) # send_to_electron.send(str(data)) # message = send_to_electron.syncservice.recv() # sys.stdout.write(str(message)+"\n") send_to_electron.close() pass
def main(): # import Queue import Queue Core = CorePy("", "kppv") processes = [ mp.Process(target=self.worker, args=(x, inputs, output)) for x in range(4) ] urls = Queue() # get urls and add to queue getUrls = Talk(1) # send content boxes sendContentBoxes = Talk(1) # recieve selected content boxes # extract sub-images from the higher dimension Image # see TableFactory.py for the rest # once we have the csv file -> send it back url = "" getContentBoxes(Core, url) sendContentBoxes.send("content boxes") # Core = CorePy("","kppv") # sys.stdout.write("CorePy initialized ...\n") # send_to_electron = Talk(1) # # send_to_electron.send(b'SYNC') # # urls = send_to_electron.recv() # urls = json.loads(urls) # # sys.stdout.write("\nNumber of files: "+str(len(urls))) # sys.stdout.write(str(urls)) # # for i in range(0, len(urls)): # run(urls[i], Core) # data = tojson([Core.image.content_list, Core.image.class_list]) # # send data to electron and receive output # send_to_electron.send(str(data)) # output = send_to_electron.recv() # # get the right format! # output = json.loads(output) # update_class_list(output,Core) # Core.train_predictor() # # send_to_electron.close() pass
def main(): # import Queue import Queue Core = CorePy("","kppv") processes = [mp.Process(target=self.worker, args=(x, inputs, output)) for x in range(4)] urls = Queue() # get urls and add to queue getUrls = Talk(1) # send content boxes sendContentBoxes = Talk(1) # recieve selected content boxes # extract sub-images from the higher dimension Image # see TableFactory.py for the rest # once we have the csv file -> send it back url = "" getContentBoxes(Core,url) sendContentBoxes.send("content boxes") # Core = CorePy("","kppv") # sys.stdout.write("CorePy initialized ...\n") # send_to_electron = Talk(1) # # send_to_electron.send(b'SYNC') # # urls = send_to_electron.recv() # urls = json.loads(urls) # # sys.stdout.write("\nNumber of files: "+str(len(urls))) # sys.stdout.write(str(urls)) # # for i in range(0, len(urls)): # run(urls[i], Core) # data = tojson([Core.image.content_list, Core.image.class_list]) # # send data to electron and receive output # send_to_electron.send(str(data)) # output = send_to_electron.recv() # # get the right format! # output = json.loads(output) # update_class_list(output,Core) # Core.train_predictor() # # send_to_electron.close() pass
def __init__(self): super(LastSession, self).__init__() self._name = 'Last Session' self._start_time = datetime.datetime(year=1900, month=1, day=1, hour=17) self._duration = datetime.timedelta(minutes=0) self._talk_list = [Talk('Networking Event', '0min', '05:00PM')]
def __init__(self): super(NoonSession, self).__init__() self._name = 'Noon Session' self._start_time = datetime.datetime(year=1900, month=1, day=1, hour=12) self._duration = datetime.timedelta(hours=1) self._talk_list = [Talk('Lunch', '60min', '12:00PM')]
def build_talks_sesions(): """Initialize all talks and sesssions objects """ sessions = list(map(lambda x: Session(x), [180, 240, 180, 240])) talks = [] with open('input.txt') as f: for line in f: talks.append(Talk(line.strip())) return sessions, talks
def __init__(s): #Dane: win=Window("todo",600,600,0,0) master=win.getMaster() todo=ToDo() topB=TopBar(master,todo) desk=Desk(master) C=desk.getC() optionB=OptionBar(master,desk,todo) talk=Talk(master,todo,desk) #testowanie #testowanie win.loop()
def read_sample_input(self, file_path=None): file_path = file_path if file_path else self.input_path talk_list = [] with codecs.open(file_path, 'r', encoding='utf-8') as f1: content = f1.readlines() for line in content: line = line.strip('\n') line_array = line.split(' ') duration = line_array[-1] title = ' '.join(line_array[0:-1]) talk = Talk(title, duration) talk_dict = {'talk': talk, 'use': False} talk_list.append(talk_dict) self._check_talk(talk_list) self._talk_list = talk_list self._talk_list = self._sort_talk_by_duration()
class Wink: talk = Talk() def __init__(self): self.blink_start = 0 self.t1 = 0 self.t2 = 0 def detectWink(self, max): if (max > 400 and self.blink_start == 0): self.blink_start = 1 #print('Wink 1') if (max < 400 and self.blink_start != 0): self.blink_start = 0 #print('Wink 0') return 1
class Wink: talk = Talk() def __init__(self): self.blink_start = 0 self.t1 = 0 self.t2 = 0 def detectWink(self, max): if (max > 400 and self.blink_start == 0): self.blink_start = 1 if (max < 400 and self.blink_start != 0): self.blink_start = 0 return 1 # if(self.t1 == 0 and self.t2 == 0 ): # self.t1 = time.time() # elif(self.t2 == 0): # self.t2 = time.time() # delta = self.t2 - self.t1 # if( delta > 5 ): # print "yes" # self.t1 = self.t2 # self.t2 = 0 # self.talk.sayYes() # else: # print "no" # self.t1 = self.t2 = 0 # self.talk.sayNo() # # if(self.t1 > 0 and self.t2 == 0 and time.time() - self.t1 > 5 ): # print "yes" # self.talk.sayYes() # self.t1 = self.t2 = 0 # self.talk.sayYes() # print max # time.sleep(1) # engine.runAndWait() # time.sleep(1)
import Syna_blink, Syna_states from Talk import Talk import pyttsx import array import time import os #for e-speak conn = NeuroskyConnector() socket = conn.getConnectionInstance() recorder = TimeSeriesRecorder() parser = ThinkGearParser(recorders=[recorder]) ser = serial.Serial('/dev/ttyACM0', 9600) w = Syna_blink.Wink() s = Syna_states.States() t = Talk() msg_array = [] wrd_array = [] list_counter = 0 msg_counter = 0 wrd_counter = 0 dash = '-' dot = '.' dot_counter = 0 dash_counter = 0 nb_counter = 0
from connector.NeuroskyConnector import NeuroskyConnector from bluetooth.btcommon import BluetoothError from neurosky.parser import ThinkGearParser, TimeSeriesRecorder import wink, states from Talk import Talk import sys from nnet.A4NN import A4NN conn = NeuroskyConnector() socket = conn.getConnectionInstance() recorder = TimeSeriesRecorder() parser = ThinkGearParser(recorders=[recorder]) w = wink.Wink() s = states.States() t = Talk() net = A4NN() net.train() test_dataset = [ 87, 87, 97, 97, 97, 97, 97, 97, 97, 97, 97, 97, 107, 107, 107, 107, 107, 107, 167, 247, 55, 29, 59, 59, 29, 29, 29, 129, 129, 129, 129, 307, 309, 92, 37, 60, 72, 75, 97 ] result = net.predict(test_dataset) print("test-set validation. Expected: ~0 - Result:" + repr(result)) test_dataset = [ 85, 85, 85, 85, 85, 85, 85, 85, 85, 72, 72, 72, 97, 149, 337, 436, 436, 436, 436, 436, 436, 436, 436, 436, 436, 401, 295, 55, 55, 55, 55, 65, 121, 141, 141, 141, 141, 141, 141 ]
canvas.pack() frame = tk.Frame(root, bg='#d6d6d6') frame.place(relwidth=1, relheight=1) label = tk.Label(frame, text="IM Chat 2020 by Erik, Lily, Danny") label.place(relwidth=0.5, relheight=0.05, relx=0.25, rely=0.1) messageBox = tk.Message(frame, bg='white', width=425) messageBox.place(relwidth=0.85, relheight=0.5, relx=0.075, rely=0.175) textEntry = tk.Entry(frame, text='Enter text...') textEntry.place(relwidth=0.85, relheigh=0.1, relx=0.075, rely=0.7) endChatButton = tk.Button(root, text="End Chat", command=endChat) endChatButton.place(relwidth=0.2, relheigh=0.1, relx=0.075, rely=0.83) sendButton = tk.Button(root, text="Send", command=lambda: send(name, textEntry.get())) sendButton.place(relwidth=0.2, relheigh=0.1, relx=0.725, rely=0.83) talk1 = Talk(ServerIP, ServerPort, OwnPort, on_notify) talk1.run() #register event handler for the event you are raising in Talk #messageBox.bind('SendText', textEntry.get()) root.mainloop()
def main(): path, send_to_electron = sys.argv[1], Talk(1) data = get_training_image(path) # send to electron app send_to_electron.send(str(data)) send_to_electron.close()
from bluetooth.btcommon import BluetoothError from neurosky.parser import ThinkGearParser, TimeSeriesRecorder import wink, states from Talk import Talk import sys from nnet.A4NN import A4NN conn = NeuroskyConnector() socket = conn.getConnectionInstance() recorder = TimeSeriesRecorder() parser = ThinkGearParser(recorders= [recorder]) w = wink.Wink() s = states.States() t = Talk() net = A4NN() net.train() test_dataset=[87,87,97,97,97,97,97,97,97,97,97,97,107,107,107,107,107,107,167,247,55,29,59,59,29,29,29,129,129,129,129,307,309,92,37,60,72,75,97] result = net.predict(test_dataset) print("test-set validation. Expected: ~0 - Result:" + repr(result)) test_dataset=[85,85,85,85,85,85,85,85,85,72,72,72,97,149,337,436,436,436,436,436,436,436,436,436,436,401,295,55,55,55,55,65,121,141,141,141,141,141,141] result = net.predict(test_dataset) print("test-set validation. Expected: ~1 - Result:" + repr(result)) i=0 myList=[] while socket is not None: try: data = socket.recv(1000) parser.feed(data)
frame = tk.Frame(root, bg='#d6d6d6') frame.place(relwidth=1, relheight=1) label = tk.Label(frame, text="IM Chat 2020 by Erik, Lily, Danny") label.place(relwidth=0.5, relheight=0.05, relx=0.25, rely=0.1) messageBox = tk.Message(frame, bg='white', width=425) messageBox.place(relwidth=0.85, relheight=0.5, relx=0.075, rely=0.175) textEntry = tk.Entry(frame, text='Enter text...') textEntry.place(relwidth=0.85, relheigh=0.1, relx=0.075, rely=0.7) endChatButton = tk.Button(root, text="End Chat", command=endChat) endChatButton.place(relwidth=0.2, relheigh=0.1, relx=0.075, rely=0.83) sendButton = tk.Button(root, text="Send", command=lambda: send(textEntry.get())) sendButton.place(relwidth=0.2, relheigh=0.1, relx=0.725, rely=0.83) talk1 = Talk(ServerIP, ServerPort, OwnPort) talk1.do_something(on_notify) talk1.run() #register event handler for the event you are raising in Talk #messageBox.bind('SendText', textEntry.get()) root.mainloop()