def newPage(self):
#print("newPage")
self.flagPage = True
self.flagNormal = False
self.paint = Paint(self)
self.paint.setSceneRect(0,0,0,0)
self.tabWidget.addTab(self.paint,"Page "+str(self.tabWidget.count()+1))
def __init__(self):
super(Aplikacja, self).__init__()
self.interfejs()
self.paint = Paint(self.predict)
self.paint.show()
self.loaded_model = 0
def init_UI(self):
self.paint = Paint()
self.ui.layout.addWidget(self.paint)
self.ui.put_points.clicked.connect(self.put_points)
self.ui.put_clusters.clicked.connect(self.put_clusters)
self.ui.clear.clicked.connect(self.clear)
self.ui.calculation.clicked.connect(self.calculation)
self.ui.step.clicked.connect(self.step)
self.ui.comboBox.addItems(['Euclid', 'Chebyshev'])
self.ui.comboBox.activated.connect(self.select_mode)
def test_rectangle(self):
picture = Paint(15, 10)
expected = """-----------------
| xxxxx |
| x x |
| xxxxx |
| |
| |
| |
| |
| |
| |
| |
-----------------"""
picture.rectangle(13, 1, 9, 3)
self.assertEqual(str(picture.draw_me()), expected)
def semiSegCanvas():
try:
imagemNomeConservado = ed.get()
formato = imagemNomeConservado.split(".")
try:
if (formato[1] != 'png'):
img = cv2.imread(imagemNomeConservado)
cv2.imwrite(formato[0] + ".png", img,
[cv2.IMWRITE_PNG_COMPRESSION])
imagemNomeConservado = formato[0] + ".png"
Paint(imagemNomeConservado)
except (IndexError):
lb = Label(window,
text="IMAGEM NAO ENCONTRADA OU DE FORMATO INVALIDO")
lb.pack()
return 0
except (TclError):
lb = Label(window, text="IMAGEM NAO ENCONTRADA OU DE FORMATO INVALIDO")
lb.pack()
return 0
def run_programm():
#Инициализация модулей pygame, создание экземпляра Settings и создание объекта экрана
pygame.init()
ai_settings = Settings()
screen = pygame.display.set_mode(
(ai_settings.screen_width, ai_settings.screen_height))
screen.fill(ai_settings.bg_color)
pygame.display.set_caption('Классификатор рукописных цифр')
#Создание экземпляров InfoBoard и Paint
infob = InfoBoard(screen, ai_settings)
paint = Paint(screen, ai_settings, infob)
#Фиксируем fps
clock = pygame.time.Clock()
fps = 60
#Запуск основного цикла классификатора
while True:
clock.tick(fps)
#Отображения доски рисования
paint.blit_bb()
#Вывод основной информации классификатора
infob.show_info()
#Отслеживание событий мыши и клавиатуры
paint.check_event()
#Обновление экрана
pygame.display.flip()
def __init__(self):
super().__init__()
paint = Paint(300, 300)
paint.setPenWidth(5)
paint.setPenColor('#EB5160')
self.setCentralWidget(paint)
class TestLine(unittest.TestCase):
picture = Paint(15, 10)
def test_borders(self):
expected = """-----------------
| |
| |
| |
| |
| |
| |
| |
| |
| |
| |
-----------------"""
self.assertEqual(str(self.picture.draw_me()), expected)
def test_horizontal(self):
expected = """-----------------
| |
| xxxxx |
| |
| |
| |
| |
| |
| |
| |
| |
-----------------"""
self.picture.line(2, 2, 6, 2)
self.assertEqual(str(self.picture.draw_me()), expected)
def test_vertical(self):
expected = """-----------------
| |
| xxxxx |
| x |
| x |
| |
| |
| |
| |
| |
| |
-----------------"""
self.picture.line(4, 3, 4, 4)
self.assertEqual(str(self.picture.draw_me()), expected)
def test_floodfill(self):
picture = Paint(15, 10)
expected = """-----------------
|ooooooooxxxxxoo|
|oooooooox xoo|
|ooooooooxxxxxoo|
|ooooooooooooooo|
|ooooooooooooooo|
|ooooooooooooooo|
|ooooooooooooooo|
|ooooooooooooooo|
|ooooooooooooooo|
|ooooooooooooooo|
-----------------"""
picture.rectangle(13, 1, 9, 3)
picture.bucket_fill(1, 9, "o")
self.assertEqual(str(picture.draw_me()), expected)
def draw(self, input_file="input.txt", output_file="output.txt"):
inp = []
with open(input_file, "r") as f:
raw_input = [row.strip() for row in f]
for raw in raw_input:
inp.append(raw.split())
if inp[0][0] != "C":
raise ValueError(
"first parameter should be canvas, chech your inp.txt")
else:
picture = Paint(int(inp[0][1]), int(inp[0][2]))
with open(output_file, "a") as f:
f.write(f"{picture.draw_me()}\n")
for inp_line in inp:
token = inp_line[0]
if token == "L":
x1 = int(inp_line[1])
y1 = int(inp_line[2])
x2 = int(inp_line[3])
y2 = int(inp_line[4])
picture.line(x1, y1, x2, y2)
with open(output_file, "a") as f:
f.write(f"{picture.draw_me()}\n")
elif token == "R":
x1 = int(inp_line[1])
y1 = int(inp_line[2])
x2 = int(inp_line[3])
y2 = int(inp_line[4])
picture.rectangle(x1, y1, x2, y2)
with open(output_file, "a") as f:
f.write(f"{picture.draw_me()}\n")
elif token == "B":
x = int(inp_line[1])
y = int(inp_line[2])
color = inp_line[3]
picture.bucket_fill(x, y, color)
with open(output_file, "a") as f:
f.write(f"{picture.draw_me()}\n")
def loop(game: Game,
collector: Collector,
save: Save = None,
teleporter=None,
teleporter2=None) -> Iterator[int]:
if isServer:
tid, f = time() + 3600 * game.hours - 300, 0
while time() < tid:
f += 1
yield f
else:
from pynput.keyboard import Key, Listener, Events
from paint import Paint
current = set()
order = [None, None, None]
def waitForResume():
action = None
while action == None and States.running:
with Events() as events:
event = events.get()
if event.__class__ == Events.Press:
if event.key == Key.pause:
action = True
States.isPaused = False
elif event.key in {Key.shift_l, Key.shift_r}:
action = True
def on_press(key):
current.add(key)
order.append(key)
ctrl: bool = Key.ctrl_l in current or Key.ctrl_r in current
alt: bool = Key.alt_l in current
speed = 300
zoom = 15
if [Key.esc, Key.esc, Key.esc] == order[-3:]:
Paint.stop()
States.running = False
elif Key.f2 == key:
States.switchPlot = True
elif Key.f7 == key:
States.save = True
elif Key.f4 == key:
Paint.switch(game.layers.width, game.layers.height)
elif Key.left == key and ctrl:
Paint.dim = (Paint.dim - 1) % game.layers.batch
elif Key.right == key and ctrl:
Paint.dim = (Paint.dim + 1) % game.layers.batch
elif Key.f3 == key:
States.slow = not States.slow
elif Key.right == key and alt:
Paint.move(speed, 0, game.layers.width, game.layers.height)
elif Key.left == key and alt:
Paint.move(-speed, 0, game.layers.width, game.layers.height)
elif Key.down == key and alt:
Paint.move(0, speed, game.layers.width, game.layers.height)
elif Key.up == key and alt:
Paint.move(0, -speed, game.layers.width, game.layers.height)
elif Key.down == key and ctrl:
Paint.zoom(-zoom, game.layers.width, game.layers.height)
elif Key.up == key and ctrl:
Paint.zoom(zoom, game.layers.width, game.layers.height)
elif Key.pause == key:
States.isPaused = True
def on_release(key):
try:
current.remove(key)
except KeyError:
pass
Listener(on_press=on_press, on_release=on_release).start()
f = 0
while States.running:
f += 1
if States.draw:
Paint(game, f, teleporter, teleporter2)
if States.switchPlot:
States.showPrint = not States.showPrint
States.switchPlot = False
collector.show(game)
if States.save:
if save != None:
save.save()
States.save = False
if States.isPaused:
waitForResume()
yield f
class Aplikacja(QWidget):
def __init__(self):
super(Aplikacja, self).__init__()
self.interfejs()
self.paint = Paint(self.predict)
self.paint.show()
self.loaded_model = 0
def predict(self, image):
if self.loaded_model == 0:
pass
else:
# użycie modelu do przewidzenia jaki jest liczba na obrazie
prediction = self.loaded_model.predict(image)
# wyświetlenie wartości zwróconych przez sieć
print(prediction)
# wysiwetlenie indeksu najwiekszego elementu
self.liczba.setText(str(np.argmax(prediction)))
def interfejs(self):
# etykiety
etykieta1 = QLabel("Ilość epok", self)
etykieta2 = QLabel("Batch size", self)
etykieta3 = QLabel("Ilość neuronów", self)
etykieta4 = QLabel("Wybierz model",self)
etykieta5 = QLabel("Wykryta liczba",self)
etykieta6 = QLabel("Odczytywane pixele", self)
etykieta7 = QLabel("Nazwa pliku modelu", self)
etykieta8 = QLabel("Nazwa pliku z wagami", self)
# przypisanie widgetów do układu tabeli
ukladT = QGridLayout()
ukladT.addWidget(etykieta1, 0, 0)
ukladT.addWidget(etykieta2, 1, 0)
ukladT.addWidget(etykieta3, 2, 0)
ukladT.addWidget(etykieta4, 7, 0)
ukladT.addWidget(etykieta5, 8, 0)
ukladT.addWidget(etykieta6, 3, 0)
ukladT.addWidget(etykieta7, 4, 0)
ukladT.addWidget(etykieta8, 5, 0)
# 1-liniowe pola edycyjne
self.epoki = QLineEdit()
self.batch = QLineEdit()
self.neurony = QLineEdit()
self.pixels = QLineEdit()
self.liczba = QLineEdit()
self.nmodel = QLineEdit()
self.nwagi = QLineEdit()
self.liczba.setDisabled(True)
ukladT.addWidget(self.epoki, 0, 1)
ukladT.addWidget(self.batch, 1, 1)
ukladT.addWidget(self.neurony, 2, 1)
ukladT.addWidget(self.liczba, 8, 1)
ukladT.addWidget(self.pixels, 3, 1)
ukladT.addWidget(self.nmodel, 4, 1)
ukladT.addWidget(self.nwagi, 5, 1)
# przyciski
wybierzBtn = QPushButton("&Wybierz", self)
wybierzBtn.clicked.connect(self.wyborSieci)
uczBtn = QPushButton("&Stwórz model", self)
uczBtn.clicked.connect(self.tworzenieModelu)
uczBtn.resize(uczBtn.sizeHint())
zamknijBtn = QPushButton("&Zamknij", self)
zamknijBtn.clicked.connect(quit)
ukladT.addWidget(wybierzBtn, 7, 1)
ukladT.addWidget(uczBtn, 6, 0, 1, 2)
ukladT.addWidget(zamknijBtn, 9, 1)
# przypisanie utworzonego układu do okna
self.setLayout(ukladT)
self.setGeometry(928, 400, 300, 150)
self.setWindowTitle("Tworzenie Modelu")
self.show()
def wyborSieci(self):
# Wczytanie modelu z pliku
json_file, _ = QFileDialog.getOpenFileName(self, "Wybierz model", "", "Modele(*.json)")
with open(json_file, 'r') as plik:
loaded_model_json = plik.read()
self.loaded_model = model_from_json(loaded_model_json)
# Wczytanie wag
h5_file, _ = QFileDialog.getOpenFileName(self, "Wybierz wagi", "", "Wagi(*.h5)")
self.loaded_model.load_weights(h5_file)
def tworzenieModelu(self):
nadawca = self.sender()
try:
epoch = int(self.epoki.text())
batching = int(self.batch.text())
neuronsNumber = int(self.neurony.text())
pixelRead = int(self.pixels.text())
nmodel = self.nmodel.text()
nwagi = self.nwagi.text()
if nadawca.text() == "&Stwórz model":
network.tworzenieModelu(pixelRead, neuronsNumber, epoch, batching, nmodel, nwagi)
except ValueError:
QMessageBox.warning(self, "Błąd", "Błędne dane", QMessageBox.Ok)
class Root(QMainWindow):
def __init__(self):
super(Root, self).__init__()
self.setWindowTitle('GraHID')
self.mdiArea = QMdiArea(self)
# self.setStyleSheet(dark_style)
# ------- ICON CONFIGURATION ------- #
self.setCentralWidget(self.mdiArea)
self.setWindowIcon(QIcon('Images/main.ico'))
# ------ INITIAL DATA ------ #
self.preferences_data = [3, 25, '0.001', 1]
self.viewData = [[8, [255, 0, 0]], [1, [0, 100, 0]],
[
0, 0, 0,
QFont('MS Shell Dlg 2', 8, 50, False), 'N', 'T',
'R'
], [0, 1, 0], [250, 250, 205]]
self.default_data = [['0', '200', '254', '0.00006'],
[0, 0, [0, '1.14e-06'], [1, '15'], [1, '100']]]
self.summary_data = [0, 0, 0, 0, 0, 0, '', ''
] # #nodos # tubs #Bombas # Res # Flow units
# ------ CURSOR ---------#
self.bar_cursor = QCursor(QPixmap('Images/index.png'))
self.nod_cursor = QCursor(QPixmap('Images/nod_cursor.png'))
self.bomb_cursor = QCursor(QPixmap('Images/bomb_cursor.png'))
# ------ STATUS BAR --------#
self.statusBar()
# ------ ACTIONS IN MENU BAR -------#
self.menu_bar = self.menuBar()
self.fileMenu = self.menu_bar.addMenu('&Archivo')
self.newAction = QAction(QIcon('Images/new.png'), 'Nuevo', self)
self.newAction.setShortcut('Ctrl+N')
self.newAction.triggered.connect(self.new_project)
self.newAction.setStatusTip('Crea un nuevo proyecto.')
self.openAction = QAction(QIcon('Images/open.png'), 'Abrir', self)
self.openAction.triggered.connect(self.open_project)
self.openAction.setShortcut('Ctrl+O')
self.openAction.setStatusTip('Abre un proyecto existente.')
self.saveAction = QAction(QIcon('Images/save.png'), 'Guardar', self)
self.saveAction.triggered.connect(self.save_project)
self.saveAction.setShortcut('Ctrl+S')
self.saveAction.setStatusTip('Guarda el proyecto actual.')
self.importAction = QAction('Importar', self)
self.importAction.setShortcut('Ctrl+I')
self.importAction.setStatusTip('Importa data externa al programa.')
self.importAction.triggered.connect(self.import_project)
self.exportAction = QAction('Exportar', self)
self.exportAction.setShortcut('Ctrl+E')
self.exportAction.setStatusTip('Exporta data a programas externos.')
self.exportAction.triggered.connect(self.export_project)
self.preferencesAction = QAction('Preferencias', self)
self.preferencesAction.triggered.connect(self.preferencesFunction)
self.preferencesAction.setStatusTip(
'Configura las propiedades iniciales del proyecto.')
self.closeAction = QAction('Salir', self)
self.closeAction.setShortcut('Alt+X')
self.closeAction.triggered.connect(self.close)
self.fileMenu.addAction(self.newAction)
self.fileMenu.addAction(self.openAction)
self.fileMenu.addAction(self.saveAction)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.importAction)
self.fileMenu.addAction(self.exportAction)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.preferencesAction)
self.fileMenu.addSeparator()
self.fileMenu.addAction(self.closeAction)
self.viewMenu = self.menu_bar.addMenu('&Ver')
self.optionsAction = QAction('Opciones', self)
self.optionsAction.setStatusTip(
'Configura las opciones de visualización del ventana del proyecto.'
)
self.optionsAction.triggered.connect(self.viewOptions)
self.viewMenu.addAction(self.optionsAction)
self.projectMenu = self.menu_bar.addMenu('&Proyecto')
self.summaryAction = QAction(QIcon('Images/resumen.png'), 'Resumen',
self)
self.summaryAction.triggered.connect(self.summary_win)
self.summaryAction.setStatusTip(
'Visualiza los valores iniciales para el análisis.')
self.defaultAction = QAction('Valores por defecto', self)
self.defaultAction.setStatusTip(
'Configura las opciones hidráulicas del proyecto.')
self.defaultAction.triggered.connect(self.defaultOptions)
self.calculateAction = QAction(QIcon('Images/run3.png'),
'Iniciar Análisis', self)
self.calculateAction.triggered.connect(self.calculate_all)
self.calculateAction.setStatusTip(
'Inicia con el análisis y/o cálculo del proyecto.')
self.dataAction = QAction(QIcon('Images/tables.png'), 'Datos', self)
self.dataAction.setStatusTip(
'Visualiza y configura los datos iniciales del proyecto.')
self.dataAction.triggered.connect(self.properties_win)
self.projectMenu.addAction(self.dataAction)
self.projectMenu.addAction(self.summaryAction)
self.projectMenu.addAction(self.defaultAction)
self.projectMenu.addSeparator()
self.projectMenu.addAction(self.calculateAction)
self.informMenu = self.menu_bar.addMenu('&Informe')
self.completeAction = QAction('Completo', self)
self.completeAction.setStatusTip(
'Visualiza los resultados generales del analisis del proyecto.')
self.iterationsAction = QAction(QIcon('Images/iter.png'),
'Iteraciones', self)
self.iterationsAction.setStatusTip(
'Visualiza todas las iteraciones realizadas por el programa.')
self.graphActions = QAction(QIcon('Images/graph.png'), 'Gráficas',
self)
self.graphActions.setStatusTip(
'Visualiza los gráficos resultantes del proyecto.')
self.tablesMenu = QMenu('Tablas', self)
self.resultsAction = QAction(QIcon('Images/tables.png'), 'Resultados',
self)
self.resultsAction.setStatusTip(
'Visualiza las tablas resultantes del proyecto.')
self.resultsAction.triggered.connect(self.viewResults)
self.tablesMenu.addAction(self.resultsAction)
self.informMenu.addAction(self.completeAction)
self.informMenu.addAction(self.iterationsAction)
self.informMenu.addSeparator()
self.informMenu.addAction(self.graphActions)
self.informMenu.addMenu(self.tablesMenu)
self.helpMenu = self.menu_bar.addMenu('A&yuda')
self.helpAction = QAction(QIcon('Images/help.png'), r'Acerca de...',
self)
self.helpAction.setStatusTip(
'Visualiza el contenido de ayuda y datos del programador.')
self.helpMenu.addAction(self.helpAction)
# ------ ACTIONS IN TOOLBAR -------#
self.tool_bar_1 = self.addToolBar('Estandar')
self.tool_bar_1.addAction(self.newAction)
self.tool_bar_1.addAction(self.openAction)
self.tool_bar_1.addAction(self.saveAction)
self.tool_bar_1.addSeparator()
self.tool_bar_1.addAction(self.calculateAction)
self.tool_bar_1.addSeparator()
self.tool_bar_1.addAction(self.summaryAction)
self.tool_bar_1.addAction(self.iterationsAction)
self.tool_bar_1.addAction(self.graphActions)
self.tool_bar_1.addAction(self.resultsAction)
self.tool_bar_1.addSeparator()
self.tool_bar_1.addAction(self.helpAction)
#self.tool_bar_1.addAction(self.reAction)
# ------ BUTTONS IN TOOLBAR -------#
self.nod_button = QToolButton(self)
self.nod_button.setIcon(QIcon('Images/nod.png'))
self.nod_button.setCheckable(True)
self.nod_button.clicked.connect(self.is_node)
self.nod_button.setStatusTip('Dibuja un nodo.')
self.pipe_button = QToolButton(self)
self.pipe_button.setIcon(QIcon('Images/bar.png'))
self.pipe_button.setCheckable(True)
self.pipe_button.clicked.connect(self.is_pipe)
self.pipe_button.setStatusTip(
'Dibuja una conexion o Tubería entre Nodos.')
self.sel_button = QToolButton(self)
self.sel_button.setIcon(QIcon('Images/cursor.png'))
self.sel_button.setCheckable(True)
self.sel_button.clicked.connect(self.is_select)
self.sel_button.setStatusTip(
'Selecciona un elemento para ver y/o modificar sus propiedades')
self.sel_area_button = QToolButton(self)
self.sel_area_button.setIcon(QIcon('Images/area_s.png'))
self.sel_area_button.setCheckable(True)
self.sel_area_button.clicked.connect(self.is_select_area)
self.sel_area_button.setStatusTip(
'Selecciona varios elementos para eliminar o mover')
self.bomb_button = QToolButton(self)
self.bomb_button.setIcon(QIcon('Images/bomb.png'))
self.bomb_button.clicked.connect(self.is_bomb)
self.bomb_button.setCheckable(True)
self.bomb_button.setStatusTip(
'Agrega una bomba seleccionando una tubería')
self.res_button = QToolButton(self)
self.res_button.setIcon(QIcon('Images/reser.png'))
self.res_button.setCheckable(True)
self.res_button.clicked.connect(self.is_reservoir)
self.move_button = QToolButton(self)
self.move_button.setIcon(QIcon('Images/move_el.png'))
self.move_button.setStatusTip(
'Mueva un item manteniedo pulsado sobre ella y moviendo el cursor.'
)
self.move_button.setCheckable(True)
#self.move_button.clicked.connect(self.isMove)
self.b_toolbar = QToolBar(self)
self.b_toolbar.setWindowTitle('Elementos')
self.b_toolbar.setIconSize(QSize(16, 16))
self.addToolBar(Qt.LeftToolBarArea, self.b_toolbar)
self.b_toolbar.addWidget(self.sel_button)
self.b_toolbar.addWidget(self.move_button)
self.b_toolbar.addWidget(self.sel_area_button)
self.b_toolbar.addSeparator()
self.b_toolbar.addWidget(self.nod_button)
self.b_toolbar.addWidget(self.pipe_button)
self.b_toolbar.addWidget(self.res_button)
self.b_toolbar.addWidget(self.bomb_button)
self.paint = None
self.new_project()
self.win_show_results = WinResults(self, self.paint)
self.mdiArea.tileSubWindows()
self.routeFile = ""
def is_node(self):
if not self.paint.is_node:
self.paint.is_node = True
else:
self.paint.is_node = False
self.paint.is_pipe = False
self.pipe_button.setChecked(False)
self.paint.is_select = False
self.sel_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_area_select = False
self.sel_area_button.setChecked(False)
self.paint.is_reservoir = False
self.res_button.setChecked(False)
self.paint.is_bomb = False
self.bomb_button.setChecked(False)
def is_pipe(self):
if not self.paint.is_pipe:
self.paint.is_pipe = True
else:
self.paint.is_pipe = False
self.paint.is_node = False
self.nod_button.setChecked(False)
self.paint.is_select = False
self.sel_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_area_select = False
self.sel_area_button.setChecked(False)
self.paint.is_reservoir = False
self.res_button.setChecked(False)
self.paint.is_bomb = False
self.bomb_button.setChecked(False)
def is_select(self):
if not self.paint.is_select:
self.paint.is_select = True
self.sel_button.setChecked(True)
else:
self.paint.is_select = False
self.paint.is_node = False
self.nod_button.setChecked(False)
self.paint.is_pipe = False
self.pipe_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_area_select = False
self.sel_area_button.setChecked(False)
self.paint.is_reservoir = False
self.res_button.setChecked(False)
self.paint.is_bomb = False
self.bomb_button.setChecked(False)
def is_select_area(self):
if not self.paint.is_area_select:
self.paint.is_area_select = True
else:
self.paint.is_area_select = False
self.paint.is_node = False
self.nod_button.setChecked(False)
self.paint.is_pipe = False
self.pipe_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_select = False
self.sel_button.setChecked(False)
self.paint.is_reservoir = False
self.res_button.setChecked(False)
self.paint.is_bomb = False
self.bomb_button.setChecked(False)
def is_reservoir(self):
if not self.paint.is_reservoir:
self.paint.is_reservoir = True
else:
self.paint.is_reservoir = False
self.paint.is_node = False
self.nod_button.setChecked(False)
self.paint.is_pipe = False
self.pipe_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_select = False
self.sel_button.setChecked(False)
self.paint.is_area_select = False
self.sel_area_button.setChecked(False)
self.paint.is_bomb = False
self.bomb_button.setChecked(False)
def is_bomb(self):
if not self.paint.is_bomb:
self.paint.is_bomb = True
else:
self.paint.is_bomb = False
self.paint.is_node = False
self.nod_button.setChecked(False)
self.paint.is_pipe = False
self.pipe_button.setChecked(False)
self.paint.is_move = False
self.move_button.setChecked(False)
self.paint.is_select = False
self.sel_button.setChecked(False)
self.paint.is_area_select = False
self.sel_area_button.setChecked(False)
self.paint.is_reservoir = False
self.res_button.setChecked(False)
def new_project(self):
self.paint = Paint(self.viewData, self)
self.mdiArea.addSubWindow(self.paint)
self.changedViewOptions()
self.paint.show()
def save_project(self):
file, cond = QFileDialog.getSaveFileName(
self, "Guardar", self.routeFile,
"All Files (*);;Archivo WaterHID (*.wh)")
if cond:
self.routeFile = file
l_all = graphToStr(self.paint)
file_p = open(self.routeFile, "w")
file_p.write(l_all)
file_p.close()
def import_project(self):
file, cond = QFileDialog.getOpenFileName(
self, "Abrir", self.routeFile, "All Files (*);;AutoCAD (*.dxf)")
if cond:
self.routeFile = file
file_to_import = EasyDXF(file)
l_res, l_nodes, l_pipes = file_to_import.read()
paint_All(l_res, l_nodes, l_pipes, self.paint)
def export_project(self):
file, cond = QFileDialog.getSaveFileName(
self, "Exportar...", self.routeFile,
"All Files (*);;AutoCAD (*.dxf)")
if cond:
self.routeFile = file
l_all = graphToStr(self.paint)
file_to_export = EasyDXF(file)
file_to_export.write(l_all)
def open_project(self):
file, cond = QFileDialog.getOpenFileName(
self, "Abrir", self.routeFile,
"All Files (*);; Archivo WaterHID (*wh)")
if cond:
self.routeFile = file
file_o = open(self.routeFile, "r")
a = file_o.readlines()
l_res = eval(a[0])
l_nodes = eval(a[1])
l_pipes = eval(a[2])
paint_All(l_res, l_nodes, l_pipes, self.paint)
def calculate_all(self):
show_text_default(self.paint)
self.changedViewOptions()
if len(self.paint.l_pipes):
n_i = [i.n_i for i in self.paint.l_pipes]
n_f = [i.n_f for i in self.paint.l_pipes]
for i in self.paint.l_nodes:
if i not in n_i and i not in n_f:
return QMessageBox.warning(
self, 'Error',
'There are untied knots.\nExisten nudos sin unir.')
eq = ['D-W', 'H-W', 'C-M'][self.default_data[1][1]]
error, i_max = float(self.preferences_data[2]), float(
self.preferences_data[1])
if self.default_data[1][4][0]:
flow_i = float(self.default_data[1][4][1]) / 1000
else:
flow_i = sum([i.demand for i in self.paint.l_nodes]) / len(
self.paint.l_nodes)
for i in self.paint.l_pipes:
i.flow = flow_i
try:
cond, res = water_net(self.paint.l_pipes,
self.paint.l_nodes,
self.paint.l_reservoir,
self.statusBar(),
eq=eq,
error=error,
i_max=i_max)
if cond:
QMessageBox.information(self, 'Success',
' It was executed successfully')
put_text(self.paint.l_pipes,
self.paint.l_nodes, self.paint.l_reservoir,
eq.lower(), self.preferences_data[0])
self.win_show_results.show()
else:
QMessageBox.information(
self, 'Error',
'There was an error during the execution')
show_text_default(self.paint)
#self.win_show_results.hide()
except ZeroDivisionError:
show_text_default(self.paint)
else:
#self.win_show_results.hide()
QMessageBox.warning(self, 'Error', "Don't exist any pipe")
def preferencesFunction(self):
win_preferences = Preferences(self.preferences_data)
win_preferences.exec_()
self.preferences_data = win_preferences.data
if self.preferences_data[3]:
self.default_data[1][2][0] = 1
self.default_data[1][3][0] = 0
else:
self.default_data[1][2][0] = 0
self.default_data[1][3][0] = 1
def viewOptions(self):
winViewOptions = ViewOptions(self.viewData)
winViewOptions.exec_()
self.viewData = winViewOptions.data
self.changedViewOptions()
show_text_default(self.paint)
def viewResults(self):
self.win_show_results.hide()
win = ResultsView(self, self.paint)
win.exec_()
self.win_show_results.show()
def changedViewOptions(self):
self.paint.setStyleSheet(
'QGraphicsView {background-color: %s }' %
QColor(self.viewData[4][0], self.viewData[4][1],
self.viewData[4][2]).name())
self.paint.node_color = QColor(self.viewData[0][1][0],
self.viewData[0][1][1],
self.viewData[0][1][2])
self.paint.node_size = self.viewData[0][0]
self.paint.pipe_color = QColor(self.viewData[1][1][0],
self.viewData[1][1][1],
self.viewData[1][1][2])
self.paint.pipe_width = self.viewData[1][0]
self.paint.text_font = self.viewData[2][3]
self.paint.text_visible_node = bool(self.viewData[2][0])
self.paint.text_visible_pipe = bool(self.viewData[2][1])
self.paint.text_visible_res = bool(self.viewData[2][2])
old_text_node = self.paint.pref_node
old_text_pipe = self.paint.pref_pipe
old_text_res = self.paint.pref_res
self.paint.pref_node = self.viewData[2][4]
self.paint.pref_pipe = self.viewData[2][5]
self.paint.pref_res = self.viewData[2][6]
for item in self.paint.scene_v.items():
if item.type() == 4:
item.setPen(self.paint.node_color)
item.setBrush(QBrush(self.paint.node_color, Qt.SolidPattern))
#QGraphicsEllipseItem.rect()
e = QPointF(
self.paint.l_nodes[self.paint.l_i_nodes.index(item)].x,
self.paint.l_nodes[self.paint.l_i_nodes.index(item)].y)
item.setRect(e.x() - self.paint.node_size / 2,
e.y() - self.paint.node_size / 2,
self.paint.node_size, self.paint.node_size)
if item.type() == 6:
pen = QPen(self.paint.pipe_color)
pen.setWidth(self.paint.pipe_width)
item.setPen(pen)
if item.type() == 8:
item.setFont(self.paint.text_font)
if self.paint.text_visible_node and item in self.paint.text_node:
text = item.toPlainText().replace(old_text_node,
self.paint.pref_node)
item.setPlainText(text)
item.show()
elif self.paint.text_visible_pipe and item in self.paint.text_pipe:
text = item.toPlainText()
text = text.replace(old_text_pipe, self.paint.pref_pipe)
item.setPlainText(text)
item.show()
elif self.paint.text_visible_res and item in self.paint.text_res:
text = item.toPlainText()
text = text.replace(old_text_res, self.paint.pref_res)
item.setPlainText(text)
item.show()
else:
item.hide()
def defaultOptions(self):
win_default = DefaultValues(self.default_data)
win_default.exec_()
self.default_data = win_default.data
self.preferences_data[3] = self.default_data[1][2][0]
for i in self.paint.l_pipes:
if self.default_data[1][1] == 0:
i.ks = float(self.default_data[0][3])
elif self.default_data[1][1] == 1:
i.C = float(self.default_data[0][3])
elif self.default_data[1][1] == 2:
i.n_m = float(self.default_data[0][3])
def properties_win(self):
win_properties = PropertiesData(self, self.paint,
self.default_data[1][1])
win_properties.exec_()
def summary_win(self):
self.summary_data[0] = len(self.paint.l_nodes)
self.summary_data[1] = len(self.paint.l_pipes)
self.summary_data[2] = 0
self.summary_data[3] = len(self.paint.l_reservoir)
self.summary_data[4] = 'm3s'
self.summary_data[5] = 'd-w'
win_summary = SummaryWindow(self.summary_data, self.paint)
win_summary.exec_()
self.summary_data = win_summary.data
def new_project(self):
self.paint = Paint(self.viewData, self)
self.mdiArea.addSubWindow(self.paint)
self.changedViewOptions()
self.paint.show()
def main():
global X, y
try:
df = pd.read_csv("./datasets/digits.csv", header=None)
X = df.values
df = pd.read_csv("./datasets/labels.csv", header=None)
y = df.values
except:
X = np.array([[]])
y = np.array([[]])
sel = np.random.permutation(X)
sel = sel[0:100]
if len(X[0]) != 0:
display_data(sel)
input_layer_size = 400
hidden_layer_size = 25
num_labels = 10
shape = (input_layer_size, hidden_layer_size, num_labels)
for i in range(1, 11):
prevLen = len(y)
print(f'Write example for {i if i < 10 else 0}')
f = lambda x: addTrainingExample(x, [[i]])
Paint(func=f)
if len(y) == prevLen:
break
if len(X[0]) == 0:
print("Not enough data... Exiting")
return
nn = NeuralNetwork(shape)
nn.Lambda = 1
initial_Theta1 = nn.rand_initialize_weights(input_layer_size,
hidden_layer_size)
initial_Theta2 = nn.rand_initialize_weights(hidden_layer_size, num_labels)
initial_nn_params = np.array(initial_Theta1.flatten().tolist() +
initial_Theta2.flatten().tolist())
f = lambda p: nn.cost_function(p, X, y)[0]
gradf = lambda p: nn.cost_function(p, X, y)[1]
print('Training Neural Network... (This can take a while)')
nn_params = optimize.fmin_cg(f,
initial_nn_params,
fprime=gradf,
maxiter=250)
shape = hidden_layer_size, (input_layer_size + 1)
idx = hidden_layer_size * (input_layer_size + 1)
Theta1 = np.reshape(nn_params[0:idx], shape)
display_data(Theta1[:, 1:])
pred = nn.predict(nn_params, X)
print(f'Training Set Accuracy: {np.mean(pred == y.T) * 100}%')
p = lambda x: nn.predict(nn_params, x)
Paint(predict=p)
file = open("./datasets/digits.csv", 'w+')
for i in range(len(X)):
file.write(f'{", ".join(str(x) for x in X[i])}\n')
file.close()
file = open("./datasets/labels.csv", 'w+')
for l in y:
file.write(f'{l[0]}\n')
file.close()
class MainWindow(QtWidgets.QMainWindow):
def __init__(self):
super(MainWindow, self).__init__()
self.ui = Ui_MainWindow()
self.ui.setupUi(self)
self.init_UI()
self.mode = RANGE_OF_EUCLID
self.cluster_analysis = None
self.btnDefault = "background-color: #87CEFA"
self.btnActive = "background-color: #4682B4"
def init_UI(self):
self.paint = Paint()
self.ui.layout.addWidget(self.paint)
self.ui.put_points.clicked.connect(self.put_points)
self.ui.put_clusters.clicked.connect(self.put_clusters)
self.ui.clear.clicked.connect(self.clear)
self.ui.calculation.clicked.connect(self.calculation)
self.ui.step.clicked.connect(self.step)
self.ui.comboBox.addItems(['Euclid', 'Chebyshev'])
self.ui.comboBox.activated.connect(self.select_mode)
def select_mode(self, index):
dictionary = {0: RANGE_OF_EUCLID, 1: RANGE_OF_CHEBYSHEV}
self.mode = dictionary[index]
def resizeEvent(self, event):
self.paint.setSceneRect(QRectF(self.paint.viewport().rect()))
def put_points(self):
self.paint.paint = True
self.paint.put_clusters = False
self.ui.put_points.setStyleSheet(self.btnActive)
self.ui.put_clusters.setStyleSheet(self.btnDefault)
def put_clusters(self):
self.paint.paint = True
self.paint.put_clusters = True
self.ui.put_points.setStyleSheet(self.btnDefault)
self.ui.put_clusters.setStyleSheet(self.btnActive)
def clear(self):
self.paint.isdelete = True
self.ui.comboBox.setEnabled(True)
self.ui.put_points.setStyleSheet(self.btnDefault)
self.ui.put_clusters.setStyleSheet(self.btnDefault)
self.ui.put_points.setEnabled(True)
self.ui.put_clusters.setEnabled(True)
self.ui.step.setDisabled(True)
self.ui.calculation.setEnabled(True)
self.paint.paint = False
self.paint.coords_clusters.clear()
self.paint.coords_points.clear()
self.paint.clusters.clear()
self.paint.points.clear()
self.paint.scene.clear()
self.cluster_analysis = None
def calculation(self):
if len(self.paint.clusters) < 1: return
self.ui.put_points.setStyleSheet(self.btnDefault)
self.ui.put_clusters.setStyleSheet(self.btnDefault)
self.ui.put_points.setDisabled(True)
self.ui.put_clusters.setDisabled(True)
self.ui.step.setEnabled(True)
self.ui.comboBox.setDisabled(True)
self.ui.calculation.setDisabled(True)
self.cluster_analysis = Cluster_Analysis(self.paint.coords_points,
self.paint.coords_clusters,
self.mode)
def step(self):
result, coords = self.cluster_analysis.step()
self.last_step(coords) if result else self.intermed_step(coords)
def intermed_step(self, coords_clusters):
self.paint.coords_clusters = deepcopy(coords_clusters)
for coords, clusters in zip(coords_clusters, self.paint.clusters):
clusters.setRect(QRectF(coords[0], coords[1], 15, 15))
def last_step(self, coords_poins):
self.ui.put_points.setEnabled(True)
self.ui.put_clusters.setEnabled(True)
self.ui.step.setDisabled(True)
self.ui.comboBox.setEnabled(True)
self.ui.calculation.setEnabled(True)
self.paint.redraw_points(coords_poins)
onvalue=1,
offvalue=0,
command=trainTrack)
trainBox.grid(row=0, column=2, padx=(10, 0), pady=(10, 0))
targetMsg = StringVar(root, value=0)
targetInput = Entry(textvariable=targetMsg,
width=3,
font=("TimesNewRoman", 15),
justify="center")
targetInput.grid(row=0, column=3, padx=(10, 0), pady=(10, 0))
targetInput.bind("<Key>", targetChange)
paintFrame = Frame(root, width=200, height=200, bd=1)
paintApp = Paint(paintFrame)
paintFrame.grid(row=1, column=0, columnspan=4, padx=10, pady=(10, 0))
predictionFrame = Frame(root)
predictionFrame.grid(row=2, column=0, sticky="we", columnspan=4, pady=10)
predictionFrame.columnconfigure(3, weight=0)
predictionFrame.rowconfigure(0, weight=0)
predictionLabel = Label(predictionFrame,
text="Prediction: ",
font=("TimesNewRoman", 10))
predictionLabel.grid(row=0, column=0, columnspan=2, padx=(10, 0), pady=10)
predictionEntry = Label(predictionFrame,
text=0,
def showEvent(self,event):
print("ShowEvent")
if self.flagWmin != True: #Para ubuntu se necesito esta bandera
self.flagWmin = True
#if MainWindow.isMinimized(): #Para mac
# pass
#else:
#----------------------------------- Obtiene hostname, port , addrs / serverConfig.ini ------------------------#
settaddrs = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/ServerConfig.ini',QtCore.QSettings.NativeFormat)
if settaddrs.value('/home/ditsa/DitsaNet/Settings/ServerConfig.ini') !='':
tmpAddr = settaddrs.value("servers") #nombre de server y port
for i in range(3,len(tmpAddr),4):
self.tmp_server.clear()
x = tmpAddr[i].rpartition('-')
val1 = int(x[0])
#val2 = int(x[2])
self.tmp_server.append(str(val1))
for j in range(15):
y = val1 + j + 1
self.tmp_server.append(str(y))
self.tempAddr.append(self.tmp_server[:])
self.tmp_total.append(str(self.tmp_server[:]))
for k in range(0,len(tmpAddr),4): #guarda el hostname, el port y password
useHostname.append(tmpAddr[k]+".local")
usePort.append(int(tmpAddr[k+1]))
usePassw.append(tmpAddr[k+2])
'''
settprog = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/fileprograms.ini', QtCore.QSettings.NativeFormat)
if settprog.value('/home/ditsa/DitsaNet/Settings/fileprograms.ini') !='':
tmp = settprog.value("saveprograms")
if tmp != None and len(tmp) != 0:
self.saveprograms = tmp[:]
self.flagProg = True
print("savePR:",self.saveprograms) #esta opcion no puede ser viable por que los gabinetes y addr puede cambiar
'''
#-----------------------------------Obtiene mylist, mylabel, rowcol / archivo.ini -----------------------------#
settings = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/archivo.ini', QtCore.QSettings.NativeFormat)
if settings.value('/home/ditsa/DitsaNet/Settings/archivo.ini')!='':
self.settingsList = settings.value("mylist")
self.settingsLabel = settings.value("mylabel")
self.settingsRowCol = settings.value("rowcol")
if self.settingsRowCol != None and len(self.settingsRowCol) !=0:
self.rowCol = self.settingsRowCol[:]
else:
self.rowCol.append('1%')
self.rowCol.append('R=10 C=10')
if self.settingsList != None:
self.mylist = self.settingsList[:] #para que no correspondan con el mismo objeto
for i in range(2,len(self.mylist),4):
self.newlist.append(self.mylist[i].replace('N=',''))
ordName = NameOrdened(self.newlist) #manda a llamar la clase NameOrdened
x = ordName.cod() #ordena los elementos de la lista de < a >
self.newlist.clear()
#Los valores de neewlist son todas las addr que se muestran en la app DitsaEditor
for i in range(len(x)): #Extrae address ingresados en DitsaEditor
for j in range(2,len(self.mylist),4):
if "N="+str(x[i]) == self.mylist[j]:
self.newlist.append(self.mylist[j-2])
self.newlist.append(self.mylist[j-1])
self.newlist.append(self.mylist[j])
self.newlist.append(self.mylist[j+1])
if self.settingsLabel != None:
self.mylabel = self.settingsLabel[:] #para que no correspondan con el mismo objeto
if self.settingsList != None or self.settingsLabel != None: # Populate Tables
self.populateTabs()
self.paint = Paint(self)
self.tabWidget.addTab(self.paint, "Page 1")
tabC = self.tabWidget.count()
MainWindow.showMaximized()
self.paint.setSceneRect(0,0,0,0)
if (self.settingsList != None and len(self.settingsList)!=0) or (self.settingsLabel != None and len(self.settingsLabel)!=0):
for i in range(int(self.numTabT)-tabC):
self.newPage()
self.onCmbZoom()
for j in range(len(useHostname)):
BCmb.pingDataClient(useHostname[j],usePort[j],self.tmp_total[j]) #envia las addr de los modulos
print("Inicia Poleo") #poleo es lo primero en iniciar despues de llenar screen
self.threadData(True) #Inicia el poleo
time.sleep(0.3)
self.valueData() #obtiene los valores del poleo del sever
class Ui_DitsaNet(object):
def __init__(self,MainWindow, parent=None):
#def setupUi(self, MainWindow):
object.__init__(parent)
MainWindow.setObjectName("MainWindow")
MainWindow.resize(1280, 523) #1280,700 1476 523
#MainWindow.setFixedSize(1280,523)
self.centralWidget = QtWidgets.QWidget(MainWindow)
self.centralWidget.setObjectName("centralWidget")
self.gridLayout = QtWidgets.QGridLayout(self.centralWidget)
self.gridLayout.setContentsMargins(11, 11, 11, 11)
self.gridLayout.setSpacing(6)
self.gridLayout.setObjectName("gridLayout")
self.cmdIniciar = QtWidgets.QPushButton(self.centralWidget) ######
self.cmdIniciar.setObjectName("cmdIniciar")
self.gridLayout.addWidget(self.cmdIniciar, 0, 1, 1, 1)
self.comboBox = QtWidgets.QComboBox(self.centralWidget)
self.comboBox.setObjectName("comboBox")
self.gridLayout.addWidget(self.comboBox, 0, 4, 1, 1) #0,3,1,1
self.cmdCargar = QtWidgets.QPushButton(self.centralWidget)
self.cmdCargar.setObjectName("cmdCargar")
self.gridLayout.addWidget(self.cmdCargar, 0, 0, 1, 1)
self.cmbZoom = QtWidgets.QComboBox(self.centralWidget)
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Fixed)
sizePolicy.setHorizontalStretch(0)
sizePolicy.setVerticalStretch(0)
sizePolicy.setHeightForWidth(self.cmbZoom.sizePolicy().hasHeightForWidth())
self.cmbZoom.setSizePolicy(sizePolicy)
self.cmbZoom.setObjectName("cmbZoom")
self.gridLayout.addWidget(self.cmbZoom, 0, 5, 1, 1) #0,4,1,1
self.cmdDetener = QtWidgets.QPushButton(self.centralWidget)
self.cmdDetener.setObjectName("cmdDetener")
self.gridLayout.addWidget(self.cmdDetener, 0, 3, 1, 1) #0,2,1,1
self.cmdPausar = QtWidgets.QPushButton(self.centralWidget)
self.cmdPausar.setObjectName("cmdPausar")
self.gridLayout.addWidget(self.cmdPausar, 0, 2, 1, 1) #0,1,1,1
self.tabWidget = QtWidgets.QTabWidget(self.centralWidget)
font = QtGui.QFont()
#font.setFamily("Ubuntu")
font.setPointSize(12)
font.setBold(False)
font.setWeight(50)
self.tabWidget.setFont(font)
self.tabWidget.setStyleSheet("")
self.tabWidget.setLocale(QtCore.QLocale(QtCore.QLocale.Spanish, QtCore.QLocale.Mexico))
self.tabWidget.setObjectName("tabWidget")
# self.tab = QtWidgets.QWidget()
# self.tab.setObjectName("tab")
# self.gridLayout_2 = QtWidgets.QGridLayout(self.tab)
# self.gridLayout_2.setContentsMargins(11, 11, 11, 11)
# self.gridLayout_2.setSpacing(6)
# self.gridLayout_2.setObjectName("gridLayout_2")
#self.tabWidget.addTab(self.tab, "")
#form = Ui_Form(self)
#self.tab_2 = QtWidgets.QWidget()
#self.tab_2.setObjectName("tab_2")
#self.tabWidget.addTab(self.tab_2, "")
self.gridLayout.addWidget(self.tabWidget, 1, 0, 1, 6) #1,0,1,5
MainWindow.setCentralWidget(self.centralWidget)
self.menuBar = QtWidgets.QMenuBar(MainWindow)
self.menuBar.setGeometry(QtCore.QRect(0, 0, 1476, 22))
self.menuBar.setObjectName("menuBar")
self.menuArchivo = QtWidgets.QMenu(self.menuBar)
self.menuArchivo.setObjectName("menuArchivo")
self.menuCircuito = QtWidgets.QMenu(self.menuBar)
self.menuCircuito.setObjectName("menuCircuito")
self.menuHerramientas = QtWidgets.QMenu(self.menuBar)
self.menuHerramientas.setObjectName("menuHerramientas")
MainWindow.setMenuBar(self.menuBar)
self.statusBar = QtWidgets.QStatusBar(MainWindow)
self.statusBar.setObjectName("statusBar")
MainWindow.setStatusBar(self.statusBar)
self.actionExit = QtWidgets.QAction(MainWindow)
self.actionExit.setObjectName("actionExit")
self.actionLoadSt = QtWidgets.QAction(MainWindow)
self.actionLoadSt.setObjectName("actionLoadSt")
self.actionStart = QtWidgets.QAction(MainWindow)
self.actionStart.setObjectName("actionStart")
self.actionPau = QtWidgets.QAction(MainWindow)
self.actionPau.setObjectName("actionPau")
self.actionSt = QtWidgets.QAction(MainWindow)
self.actionSt.setObjectName("actionSt")
self.actionEd = QtWidgets.QAction(MainWindow)
self.actionEd.setObjectName("actionEd")
self.actionRep = QtWidgets.QAction(MainWindow)
self.actionRep.setObjectName("actionRep")
self.menuArchivo.addAction(self.actionExit)
self.menuCircuito.addAction(self.actionLoadSt)
self.menuCircuito.addAction(self.actionStart)
self.menuCircuito.addAction(self.actionPau)
self.menuCircuito.addAction(self.actionSt)
self.menuHerramientas.addAction(self.actionEd)
self.menuHerramientas.addAction(self.actionRep)
self.menuBar.addAction(self.menuArchivo.menuAction())
self.menuBar.addAction(self.menuCircuito.menuAction())
self.menuBar.addAction(self.menuHerramientas.menuAction())
self.retranslateUi(MainWindow)
self.tabWidget.setCurrentIndex(0)
QtCore.QMetaObject.connectSlotsByName(MainWindow)
self.comboBox.addItems(['Current','Voltage','Temperature','AH step','AH accum','Time'])
self.cmbZoom.setEditable(True)
self.cmbZoom.setValidator(QtGui.QRegExpValidator(QtCore.QRegExp("\\d\\d\\d?$"),self.centralWidget))
self.cmbZoom.addItems(['25%','50%','75%','100%','125%','150%','175%','200%'])
self.cmbZoom.lineEdit().setAlignment(QtCore.Qt.AlignCenter)
self.cmbZoom.setCurrentIndex(3)
# self.comboBox.activated.connect(self.onCombo)
self.cmbZoom.activated.connect(self.onCmbZoom)
self.cmdDetener.clicked.connect(self.btnDetener)
self.cmdPausar.clicked.connect(self.btnPausar)
self.cmdIniciar.clicked.connect(self.btnIniciar)
self.cmdCargar.clicked.connect(self.btnCargar)
#self.paint = Paint(self)
#self.selAllShort = QtWidgets.QShortcut(QtGui.QKeySequence(QtGui.QKeySequence.ZoomIn),self.paint,context= QtCore.Qt.WidgetShortcut,)
#self.selAllShort.activated.connect(self.zoom_in)
#self.selAllShort = QtWidgets.QShortcut(QtGui.QKeySequence(QtGui.QKeySequence.ZoomOut),self.paint,context= QtCore.Qt.WidgetShortcut,)
#self.selAllShort.activated.connect(self.zoom_out)
MainWindow.showEvent = self.showEvent
MainWindow.closeEvent = self.closeEvent
MainWindow.resizeEvent = self.resizeEvent
self.tmp_server = list() # list temporal de Server
self.tmp_total = list() #
self.mylist = list()
self.mylabel = list()
self.rowCol = list()
self.newlist = list() #addr con columnas
self.tempAddr = list()
self.maxTabs = list()
#self.saveprograms = list() #guarda programs's name
self.flagPage = False
self.flagNormal = True
self.flagWmin = False #Flag para ubuntu
self.flagClose = False
#self.flagProg = False
# ------- list de moludos , labels,progressB,nameModules --------#
self.labels = list()
#self.progress = list()
self.lblmodule = list()
#self.scaleFactor = 1.0
self.MainWindow = MainWindow
def retranslateUi(self, MainWindow):
_translate = QtCore.QCoreApplication.translate
MainWindow.setWindowTitle(_translate("MainWindow", "Formation Viewer"))
self.cmdIniciar.setText(_translate("MainWindow", "Start"))
self.cmdCargar.setText(_translate("MainWindow", "Load Programs / Start"))
self.cmdDetener.setText(_translate("MainWindow", "Stop"))
self.cmdPausar.setText(_translate("MainWindow", "Pause"))
#self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab), _translate("MainWindow", "Tab 1"))
#self.tabWidget.setTabText(self.tabWidget.indexOf(self.tab_2), _translate("MainWindow", "Tab 2"))
self.menuArchivo.setTitle(_translate("MainWindow", "File"))
self.menuCircuito.setTitle(_translate("MainWindow", "Circuit"))
self.menuHerramientas.setTitle(_translate("MainWindow", "Tools"))
self.actionExit.setText(_translate("MainWindow", "Exit"))
self.actionLoadSt.setText(_translate("MainWindow", "Load Programs / Start"))
self.actionStart.setText(_translate("MainWindow", "Start"))
self.actionPau.setText(_translate("MainWindow", "Pause"))
self.actionSt.setText(_translate("MainWindow", "Stop"))
self.actionEd.setText(_translate("MainWindow", "Profile Editor"))
self.actionRep.setText(_translate("MainWindow", "Reports"))
self.actionExit.triggered.connect(self.exitWindow)
self.actionLoadSt.triggered.connect(self.btnCargar)
self.actionStart.triggered.connect(self.btnIniciar)
self.actionPau.triggered.connect(self.btnPausar)
self.actionSt.triggered.connect(self.btnDetener)
self.actionEd.triggered.connect(self.execProfileEd)
self.actionRep.triggered.connect(self.fileReport)
def showEvent(self,event):
print("ShowEvent")
if self.flagWmin != True: #Para ubuntu se necesito esta bandera
self.flagWmin = True
#if MainWindow.isMinimized(): #Para mac
# pass
#else:
#----------------------------------- Obtiene hostname, port , addrs / serverConfig.ini ------------------------#
settaddrs = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/ServerConfig.ini',QtCore.QSettings.NativeFormat)
if settaddrs.value('/home/ditsa/DitsaNet/Settings/ServerConfig.ini') !='':
tmpAddr = settaddrs.value("servers") #nombre de server y port
for i in range(3,len(tmpAddr),4):
self.tmp_server.clear()
x = tmpAddr[i].rpartition('-')
val1 = int(x[0])
#val2 = int(x[2])
self.tmp_server.append(str(val1))
for j in range(15):
y = val1 + j + 1
self.tmp_server.append(str(y))
self.tempAddr.append(self.tmp_server[:])
self.tmp_total.append(str(self.tmp_server[:]))
for k in range(0,len(tmpAddr),4): #guarda el hostname, el port y password
useHostname.append(tmpAddr[k]+".local")
usePort.append(int(tmpAddr[k+1]))
usePassw.append(tmpAddr[k+2])
'''
settprog = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/fileprograms.ini', QtCore.QSettings.NativeFormat)
if settprog.value('/home/ditsa/DitsaNet/Settings/fileprograms.ini') !='':
tmp = settprog.value("saveprograms")
if tmp != None and len(tmp) != 0:
self.saveprograms = tmp[:]
self.flagProg = True
print("savePR:",self.saveprograms) #esta opcion no puede ser viable por que los gabinetes y addr puede cambiar
'''
#-----------------------------------Obtiene mylist, mylabel, rowcol / archivo.ini -----------------------------#
settings = QtCore.QSettings('/home/ditsa/DitsaNet/Settings/archivo.ini', QtCore.QSettings.NativeFormat)
if settings.value('/home/ditsa/DitsaNet/Settings/archivo.ini')!='':
self.settingsList = settings.value("mylist")
self.settingsLabel = settings.value("mylabel")
self.settingsRowCol = settings.value("rowcol")
if self.settingsRowCol != None and len(self.settingsRowCol) !=0:
self.rowCol = self.settingsRowCol[:]
else:
self.rowCol.append('1%')
self.rowCol.append('R=10 C=10')
if self.settingsList != None:
self.mylist = self.settingsList[:] #para que no correspondan con el mismo objeto
for i in range(2,len(self.mylist),4):
self.newlist.append(self.mylist[i].replace('N=',''))
ordName = NameOrdened(self.newlist) #manda a llamar la clase NameOrdened
x = ordName.cod() #ordena los elementos de la lista de < a >
self.newlist.clear()
#Los valores de neewlist son todas las addr que se muestran en la app DitsaEditor
for i in range(len(x)): #Extrae address ingresados en DitsaEditor
for j in range(2,len(self.mylist),4):
if "N="+str(x[i]) == self.mylist[j]:
self.newlist.append(self.mylist[j-2])
self.newlist.append(self.mylist[j-1])
self.newlist.append(self.mylist[j])
self.newlist.append(self.mylist[j+1])
if self.settingsLabel != None:
self.mylabel = self.settingsLabel[:] #para que no correspondan con el mismo objeto
if self.settingsList != None or self.settingsLabel != None: # Populate Tables
self.populateTabs()
self.paint = Paint(self)
self.tabWidget.addTab(self.paint, "Page 1")
tabC = self.tabWidget.count()
MainWindow.showMaximized()
self.paint.setSceneRect(0,0,0,0)
if (self.settingsList != None and len(self.settingsList)!=0) or (self.settingsLabel != None and len(self.settingsLabel)!=0):
for i in range(int(self.numTabT)-tabC):
self.newPage()
self.onCmbZoom()
for j in range(len(useHostname)):
BCmb.pingDataClient(useHostname[j],usePort[j],self.tmp_total[j]) #envia las addr de los modulos
print("Inicia Poleo") #poleo es lo primero en iniciar despues de llenar screen
self.threadData(True) #Inicia el poleo
time.sleep(0.3)
self.valueData() #obtiene los valores del poleo del sever
def closeEvent(self,event):
print("closeEvent")
self.flagClose = True
time.sleep(0.5)
self.threadTimer(False)
self.threadData(False)
def threadData(self,flag):
#print("threadData")
if flag == True:
shared.lock_client.acquire()
self.dataThread = None
self.dataThread = DataListenerMemory(self.testsCallback)
self.dataThread.start()
shared.lock_client.release()
else:
self.dataThread.stop()
def exitWindow(self):
self.MainWindow.close()
def execProfileEd(self): #open otra gui diferente
subprocess.Popen(['python3','/opt/Ditsa/ProfileEditor/ProfileEditorApp.py'])
def fileReport(self):
print("REPORT") #verificar esta parte como realizarla mas eficiente
QtGui.QGuiApplication.processEvents()
FilesReport(usePassw) #recibe carpeta(FormationDataFiles) de server
ventana = QtWidgets.QWidget()
uif = Ui_FormTable()
uif.setupUi(ventana)
ventana.show()
def threadTimer(self,flag):
#print("ThreadTimer")
if flag == True:
self.t = None
self.t = threading.Timer(1, self.valueData)
self.t.start()
else:
self.t.cancel()
def populateTabs(self):
#print("populateTabs")
for i in range(0,len(self.settingsList),4):
self.maxTabs.append(self.settingsList[i])
for i in range(0,len(self.settingsLabel),3):
self.maxTabs.append(self.settingsLabel[i])
if len(self.maxTabs)!= 0:
y = max(self.maxTabs)
self.numTabT = y.replace('%','')
self.maxTabs.clear()
def newPage(self):
#print("newPage")
self.flagPage = True
self.flagNormal = False
self.paint = Paint(self)
self.paint.setSceneRect(0,0,0,0)
self.tabWidget.addTab(self.paint,"Page "+str(self.tabWidget.count()+1))
def onCmbZoom(self): ###verificar funcionamiento
print("cmbZoom") ##se puede cambiar aun no finalizado
textcmb = self.cmbZoom.currentText()
y = textcmb.split('%')
value = ''.join(y)
det = int(value) / 125
form = self.tabWidget.currentWidget()
form.zoomCmb(det)
def testsCallback(self, msg):
_translate = QtCore.QCoreApplication.translate
if "DL[PASS]" in msg:
msg = msg.replace("DL[PASS]:","")
cbText = self.comboBox.currentText()
#cbText2 = self.comboBox.currentIndex()+1
if cbText == 'Current':
cbText2 = 1
pref = " A"
elif cbText == 'Voltage':
cbText2 = 2
pref = " V"
elif cbText == 'Temperature':
cbText2 = 3
pref = " C"
elif cbText == 'Time':
cbText2 = 8
pref = ''
elif cbText == 'AH step':
cbText2 = 4
pref = " AH"
elif cbText == 'AH accum':
pref = " AH"
cbText2 = 5
for i in range(1,len(self.labels),3):
addr = self.labels[i+1]
font = QtGui.QFont()
font.setFamily("Ubuntu Light")
font.setPointSize(12) #checar si es necesario cambiar
font.setBold(True)
font.setWeight(75)
self.labels[i].setFont(font)
if shared.DEV[addr][0] == False: # state - No comm
font = QtGui.QFont()
font.setFamily("Ubuntu Light")
font.setPointSize(10)
font.setBold(True)
font.setWeight(75)
self.labels[i].setFont(font)
self.labels[i].setText("NO COMM")
self.labels[i].setStyleSheet("QLabel {background-color : gold; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter)
else:
self.labels[i].setText(shared.DEV[addr][cbText2]+pref)
self.labels[i].setToolTip(_translate("MainWindow", "Name: "+self.lblmodule[i].text()+"\n"
"Status: "+shared.DEV[addr][12]+"\n" #ch,pause,finished
"Current: "+shared.DEV[addr][1]+"\n"
"Voltage: "+shared.DEV[addr][2]+"\n"
"Temperature: "+shared.DEV[addr][3]+"\n"
"AH: "+shared.DEV[addr][4]+"\n"
"AHc: "+shared.DEV[addr][5]+"\n"
"Program Name: "+shared.DEV[addr][11]+"\n"
"Program Step: "+shared.DEV[addr][6]+"\n"
"Step State: "+shared.DEV[addr][7]+"\n"
"Step time: "+shared.DEV[addr][8]+"\n"))
#"Tiempo Restante: 00:00\n"
#"End Time: 12/04/2019 20:13\n"))
#"ServerID: 0\n"
#"FirstN: 0"))
if (shared.DEV[addr][12] == 'I') or (shared.DEV[addr][12] == 'S'): #state - Stop or Initial
self.labels[i].setStyleSheet("QLabel {background-color : lightblue; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter)
#self.progress[i].setValue(0)
elif shared.DEV[addr][12] == 'E': #state - End Program
self.labels[i].setStyleSheet("QLabel {background-color : orange; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter)
#self.progress[i].setValue(0)
elif shared.DEV[addr][12] == 'R': #state - Running
self.labels[i].setStyleSheet("QLabel {background-color : limegreen; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter)
elif shared.DEV[addr][12] == 'P': #state - Pause
self.labels[i].setStyleSheet("QLabel {background-color : mediumpurple; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter)
elif (shared.DEV[addr][12] == 'T') or (shared.DEV[addr][12] == 'W'): #state - temp-hight or current warning
self.labels[i].setStyleSheet("QLabel {background-color : red; color : black; border: 1px solid black;} ")
self.labels[i].setAlignment(QtCore.Qt.AlignCenter) #red
'''
#-------------------------- Progress Bar ---------------------------#
for j in range(1,len(self.progress),3):
addr = self.progress[j+1]
if shared.DEV[addr][0] != False:
if float(shared.DEV[addr][6])*100 == 0:
self.progress[j].setValue(0)
else:
value = float(shared.DEV[addr][6])*100 / float(shared.DEV[addr][7])
self.progress[j].setValue(value)
'''
def valueData(self):
print("VALUEDATA")
shared.lock_client.acquire()
for j in range(len(useHostname)):
memoryData = BCmb.memoryDataClient(useHostname[j],usePort[j])
#time.sleep(0.3)
if memoryData!= None: #Tiene comm con server
addr_list = self.tempAddr[j]
for i in range(len(addr_list)):
address = int(addr_list[i])
TempData = memoryData[i].split(',')
#print("TempData:",TempData)
dat1 = str(TempData[0]).replace('{','')
#print("data1:",dat1)
if dat1 == 'True' and len(TempData) == 13:
TempData[12] = str(TempData[12]).replace('}','')
TempData[0] = True
shared.DEV[address][0] = TempData[0]
#we store current
shared.DEV[address][1] = str(TempData[1].replace('I',''))
#we store voltage
shared.DEV[address][2] = str(TempData[2].replace('V',''))
#we store temperature
shared.DEV[address][3] = str(TempData[3].replace('T',''))
#we store step number and type
shared.DEV[address][4] = str(TempData[4].replace('AH',''))
#we store amper accumulate
shared.DEV[address][5] = str(TempData[5].replace('AC',''))
#we store step number
shared.DEV[address][6] = str(TempData[6].replace('P',''))
#we store time of current status
shared.DEV[address][7] = str(TempData[7].replace('S',''))
#we store current time program
shared.DEV[address][8] = str(TempData[8].replace('t',''))
#we store the total time program
shared.DEV[address][9] = str(TempData[9].replace('Tt',''))
#we store the total time program
shared.DEV[address][10] = str(TempData[10].replace('TT',''))
#we store the name program
shared.DEV[address][11] = str(TempData[11].replace('N',''))
#we store the total time program
shared.DEV[address][12] = str(TempData[12].replace('',''))
elif dat1 == 'False}':
TempData[0] = str(TempData[0]).replace('}','')
shared.DEV[address][0] = False
#print("TempData2:",TempData)
if self.flagClose != True:
self.threadTimer(True)
else:
self.threadTimer(False)
shared.lock_client.release()
count = 0
def resizeEvent(self,event): #verificar con ubuntu como trabaja
#print("changeEvent")
self.count+= 1
if self.count != 1:
if MainWindow.isMaximized() and self.flagNormal != True:
self.flagNormal = True
#MainWindow.showNormal() #asigna el valor original del resize
x = self.tabWidget.currentWidget()
x.showEvent(event)
else:
self.flagPage = False
self.flagNormal = False
#MainWindow.showMaximized()
x = self.tabWidget.currentWidget()
x.showEvent(event)
def btnDetener(self):
print("Detener")
Ui_stopModule(self).exec_()
#self.threadData(True)
def btnPausar(self):
print("Pausar")
Ui_pauseModule(self).exec_()
#self.threadData(True)
def btnIniciar(self):
print("Iniciar")
Ui_runModule(self).exec_()
#self.threadData(True)
def btnCargar(self):
print("Cargar")
Ui_WindowCh(self).exec_()
self.threadData(True)
self.valueData()
'''
def on_press(key):
current.add(key)
order.append(key)
ctrl: bool = Key.ctrl_l in current or Key.ctrl_r in current
alt: bool = Key.alt_l in current
speed = 300
zoom = 15
if [Key.esc, Key.esc, Key.esc] == order[-3:]:
Paint.stop()
States.running = False
elif Key.f2 == key:
States.switchPlot = True
elif Key.f7 == key:
States.save = True
elif Key.f4 == key:
Paint.switch(game.layers.width, game.layers.height)
elif Key.left == key and ctrl:
Paint.dim = (Paint.dim - 1) % game.layers.batch
elif Key.right == key and ctrl:
Paint.dim = (Paint.dim + 1) % game.layers.batch
elif Key.f3 == key:
States.slow = not States.slow
elif Key.right == key and alt:
Paint.move(speed, 0, game.layers.width, game.layers.height)
elif Key.left == key and alt:
Paint.move(-speed, 0, game.layers.width, game.layers.height)
elif Key.down == key and alt:
Paint.move(0, speed, game.layers.width, game.layers.height)
elif Key.up == key and alt:
Paint.move(0, -speed, game.layers.width, game.layers.height)
elif Key.down == key and ctrl:
Paint.zoom(-zoom, game.layers.width, game.layers.height)
elif Key.up == key and ctrl:
Paint.zoom(zoom, game.layers.width, game.layers.height)
elif Key.pause == key:
States.isPaused = True
new_saver.restore(sess, os.path.join("saved", "model"))
x = graph.get_operation_by_name("x").outputs[0]
y_ = graph.get_operation_by_name("y_").outputs[0]
keep_prob = graph.get_operation_by_name("keep_prob").outputs[0]
conv = tf.get_collection("conv")[0]
while not done_ref[0]:
mnist_like_image = [
np.array(list(img_ref.resize([28, 28]).tobytes()),
dtype='float32')
]
res = conv.eval(feed_dict={
x: mnist_like_image,
y_: [[0 for x in range(10)]],
keep_prob: 1.0
})
data_ref[:] = []
data_ref.extend(res[0])
time.sleep(0.1)
if __name__ == '__main__':
img = Image.new("P", [600, 600])
data = [0.1 for x in range(0, 10)]
done = [False]
t = threading.Thread(target=th1, args=(img, data, done))
t.start()
ge = Paint(img, data)
done[0] = True
user32 = ctypes.windll.user32
user32.SetProcessDPIAware()
[monitor_width,
monitor_height] = [user32.GetSystemMetrics(0),
user32.GetSystemMetrics(1)]
face_cascade = cv2.CascadeClassifier('haarcascade_frontalface_default.xml')
eye_cascade = cv2.CascadeClassifier('haarcascade_eye.xml')
# capture = cv2.VideoCapture('http://192.168.43.245:8080/video')
capture = cv2.VideoCapture(0)
ret, frame = capture.read()
paint = Paint(frame)
paint.color_changer_colors.extend([(255, 0, 0), (255, 255, 0), (0, 255, 255),
(128, 128, 128),
(150, 75, 0), (255, 127, 0), (191, 0, 255),
(0, 0, 0), (255, 0, 255), (0, 255, 255),
(143, 0, 255)])
paint.pause = True
exit = False
while not exit:
ret, frame = capture.read()
# flip kamera supaya mirror
img = cv2.flip(frame, 1)
# painting
def setupUi(self, MainWindow):
MainWindow.setObjectName("MainWindow")
MainWindow.resize(1233, 862)
self.centralwidget = QtWidgets.QWidget(MainWindow)
self.centralwidget.setObjectName("centralwidget")
self.label_3 = QtWidgets.QLabel(self.centralwidget)
self.label_3.setGeometry(QtCore.QRect(840, 300, 51, 16))
self.label_3.setObjectName("label_3")
self.label_2 = QtWidgets.QLabel(self.centralwidget)
self.label_2.setGeometry(QtCore.QRect(840, 130, 41, 21))
self.label_2.setObjectName("label_2")
self.label_4 = QtWidgets.QLabel(self.centralwidget)
self.label_4.setGeometry(QtCore.QRect(840, 240, 61, 16))
self.label_4.setObjectName("label_4")
self.lineEdit_2 = QtWidgets.QLineEdit(self.centralwidget)
self.lineEdit_2.setGeometry(QtCore.QRect(910, 130, 221, 20))
self.lineEdit_2.setObjectName("lineEdit_2")
self.lineEdit = QtWidgets.QLineEdit(self.centralwidget)
self.lineEdit.setGeometry(QtCore.QRect(910, 90, 221, 20))
self.lineEdit.setObjectName("lineEdit")
self.pushButton = QtWidgets.QPushButton(self.centralwidget)
self.pushButton.setGeometry(QtCore.QRect(840, 180, 71, 23))
self.pushButton.setObjectName("pushButton")
self.pushButton_2 = QtWidgets.QPushButton(self.centralwidget)
self.pushButton_2.setGeometry(QtCore.QRect(1060, 180, 71, 23))
self.pushButton_2.setObjectName("pushButton_2")
self.label = QtWidgets.QLabel(self.centralwidget)
self.label.setGeometry(QtCore.QRect(840, 90, 41, 21))
self.label.setObjectName("label")
self.textEdit = QtWidgets.QTextEdit(self.centralwidget)
self.textEdit.setGeometry(QtCore.QRect(840, 340, 291, 301))
self.textEdit.setObjectName("textEdit")
self.label_5 = QtWidgets.QLabel(self.centralwidget)
self.label_5.setGeometry(QtCore.QRect(960, 240, 111, 16))
self.label_5.setObjectName("label_5")
self.openGLWidget = Paint(self.centralwidget)
self.openGLWidget.setGeometry(QtCore.QRect(100, 90, 591, 551))
self.openGLWidget.setObjectName("openGLWidget")
self.pushButton_RST = QtWidgets.QPushButton(self.centralwidget)
self.pushButton_RST.setGeometry(QtCore.QRect(840, 720, 291, 61))
self.pushButton_RST.setObjectName("pushButton_RST")
self.horizontalSlider = QtWidgets.QSlider(self.centralwidget)
self.horizontalSlider.setGeometry(QtCore.QRect(100, 680, 591, 31))
self.horizontalSlider.setMaximum(5760)
self.horizontalSlider.setOrientation(QtCore.Qt.Horizontal)
self.horizontalSlider.setObjectName("horizontalSlider")
self.horizontalSlider_2 = QtWidgets.QSlider(self.centralwidget)
self.horizontalSlider_2.setGeometry(QtCore.QRect(100, 720, 591, 31))
self.horizontalSlider_2.setMaximum(5760)
self.horizontalSlider_2.setOrientation(QtCore.Qt.Horizontal)
self.horizontalSlider_2.setObjectName("horizontalSlider_2")
self.horizontalSlider_3 = QtWidgets.QSlider(self.centralwidget)
self.horizontalSlider_3.setGeometry(QtCore.QRect(100, 760, 591, 31))
self.horizontalSlider_3.setMaximum(5760)
self.horizontalSlider_3.setOrientation(QtCore.Qt.Horizontal)
self.horizontalSlider_3.setObjectName("horizontalSlider_3")
self.label_x = QtWidgets.QLabel(self.centralwidget)
self.label_x.setGeometry(QtCore.QRect(710, 680, 51, 31))
self.label_x.setObjectName("label_x")
self.label_y = QtWidgets.QLabel(self.centralwidget)
self.label_y.setGeometry(QtCore.QRect(710, 720, 51, 31))
self.label_y.setObjectName("label_y")
self.label_z = QtWidgets.QLabel(self.centralwidget)
self.label_z.setGeometry(QtCore.QRect(710, 760, 51, 31))
self.label_z.setObjectName("label_z")
self.pushButton_CL = QtWidgets.QPushButton(self.centralwidget)
self.pushButton_CL.setGeometry(QtCore.QRect(840, 650, 291, 61))
self.pushButton_CL.setObjectName("pushButton_CL")
MainWindow.setCentralWidget(self.centralwidget)
self.menubar = QtWidgets.QMenuBar(MainWindow)
self.menubar.setGeometry(QtCore.QRect(0, 0, 1233, 23))
self.menubar.setObjectName("menubar")
MainWindow.setMenuBar(self.menubar)
self.statusbar = QtWidgets.QStatusBar(MainWindow)
self.statusbar.setObjectName("statusbar")
MainWindow.setStatusBar(self.statusbar)
self.retranslateUi(MainWindow)
QtCore.QMetaObject.connectSlotsByName(MainWindow)
