236 lines
14 KiB
Python
236 lines
14 KiB
Python
#from Tools.scripts.highlight import default_html
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#default_html
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import FreeSimpleGUI as sg
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#### ---- GUI Constants
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WINDOW_TITLE = 'Модуль управления лазерной схемой оптического смесителя (Отдел радиофотоники МФТИ)'
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WINDOW_SIZE = [0, 0]
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COMPACT_LAYOUT = False
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SET_BUTTON_TEXT = 'Задать'
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SET_TEMPERATURE_TEXT_1 = 'Установка температуры лазера 1 (C):'
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SET_TEMPERATURE_TEXT_2 = 'Установка температуры лазера 2 (C):'
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SET_CURRENT_TEXT_1 = 'Управляющий ток лазера 1 (15-60 мА):'
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SET_CURRENT_TEXT_2 = 'Управляющий ток лазера 2 (15-60 мА):'
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SET_MANUAL_MODE_TEXT = 'Ручной режим ввода'
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SET_TEXT_WIDTH = 34
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SET_INPUT_WIDTH = 5
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SET_MIN_TEMPERATURE_TEXT_1 = 'Минимальная температура лазера 1 (C):'
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SET_MAX_TEMPERATURE_TEXT_1 = 'Максимальная температура лазера 1 (C):'
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SET_DELTA_TEMPERATURE_TEXT_1 = 'Шаг дискретизации температуры лазера 1 (0.05-1 С):'
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SET_MIN_CURRENT_TEXT_1 = 'Мнимальный ток лазера 1 (мА):'
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SET_MAX_CURRENT_TEXT_1 = 'Максимальный ток лазера 1 (мА):'
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SET_DELTA_CURRENT_TEXT_1 = 'Шаг дискретизации тока лазера 1 (0.002-0.5 мА):'
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SET_MIN_TEMPERATURE_TEXT_2 = 'Минимальная температура лазера 2 (C):'
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SET_MAX_TEMPERATURE_TEXT_2 = 'Максимальная температура лазера 2 (C):'
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SET_DELTA_TEMPERATURE_TEXT_2 = 'Шаг дискретизации температуры лазера 2 (0.05-1 С):'
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SET_MIN_CURRENT_TEXT_2 = 'Мнимальный ток лазера 2 (мА):'
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SET_MAX_CURRENT_TEXT_2 = 'Максимальный ток лазера 2 (мА):'
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SET_DELTA_CURRENT_TEXT_2 = 'Шаг дискретизации тока лазера 2 (0.002-0.5 мА):'
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SET_DELTA_T_TEXT = 'Шаг дискретизации времени (20-100 мкс, шаг 10 мкс):'
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SET_TAU_T_TEXT = 'Время задержки (3-10мс):'
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SET_TEXT_WIDTH_NEW = 40
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SET_START_BUTTON_TEXT = 'Пуск'
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SET_STOP_BUTTON_TEXT = 'Стоп'
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GRAPH_POINTS_NUMBER = 100 # Number of most recent data points shown on charts
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GRAPH_CANVAS_SIZE = (0, 0)
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GRAPH_BG_COLOR = '#303030'
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GRAPH_SIGN_AXES_COLOR = 'orange'
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GRAPH_T_MIN = 0 # Celsius
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GRAPH_T_MAX = 50 # Celsius
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GRAPH_I_MIN = 0.0 # mA
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GRAPH_I_MAX = 1.0 # mA
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READ_TEMPERATURE_TEXT = 'Температура лазера'
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READ_CURRENT_TEXT = 'Ток фотодиода'
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VOLTAGE_TEXT_WIDTH = 15
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H_SEPARATOR_PAD = (1, 20)
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OUTPUT_TEXT_PAD = (5, (20, 5))
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WINDOW_MARGIN = (60, 90)
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MIN_WINDOW_SIZE = (880, 660)
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#### ---- Setting GUI
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def get_screen_size():
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global WINDOW_SIZE, GRAPH_CANVAS_SIZE, COMPACT_LAYOUT, SET_TEXT_WIDTH, SET_TEXT_WIDTH_NEW
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global H_SEPARATOR_PAD, OUTPUT_TEXT_PAD
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window = sg.Window('Test')
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screen_width, screen_height = window.get_screen_size()
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window.close()
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COMPACT_LAYOUT = screen_width <= 1280 or screen_height <= 800
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margin_w, margin_h = WINDOW_MARGIN
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min_w, min_h = MIN_WINDOW_SIZE
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window_width = min(screen_width, max(min_w, screen_width - margin_w))
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window_height = min(screen_height, max(min_h, screen_height - margin_h))
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WINDOW_SIZE = (window_width, window_height)
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if COMPACT_LAYOUT:
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SET_TEXT_WIDTH = 30
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SET_TEXT_WIDTH_NEW = 34
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graph_width = min(int(screen_width / 3.6), int(window_width / 3.1))
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graph_height = max(110, int(screen_height / 6.5))
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H_SEPARATOR_PAD = (1, 12)
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OUTPUT_TEXT_PAD = (5, (12, 5))
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else:
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SET_TEXT_WIDTH = 34
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SET_TEXT_WIDTH_NEW = 40
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graph_width = int(screen_width / 3.5)
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graph_height = int(screen_width / (3 * 2.75))
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H_SEPARATOR_PAD = (1, 20)
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OUTPUT_TEXT_PAD = (5, (20, 5))
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graph_width = max(220, graph_width)
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GRAPH_CANVAS_SIZE = (graph_width, graph_height)
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return WINDOW_SIZE
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def setup_gui(params):
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sg.theme("DarkBlue12")
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window_size = get_screen_size()
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layout_input_col1 = [[sg.Text(SET_TEMPERATURE_TEXT_1, size=(SET_TEXT_WIDTH, 1)), sg.Push(),
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sg.Input(params['Temp_1'], disabled_readonly_background_color="Gray", size=(SET_INPUT_WIDTH,1), key='-InputT1-', disabled = True)],
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[sg.Text(SET_CURRENT_TEXT_1, size=(SET_TEXT_WIDTH, 1)), sg.Push(),
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sg.Input(params['Iset_1'], disabled_readonly_background_color="Gray", size=(SET_INPUT_WIDTH,1), key='-InputI1-', disabled = True)],
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[sg.HSeparator(pad=H_SEPARATOR_PAD)],
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[sg.Push(), sg.Text(READ_TEMPERATURE_TEXT+' 1: ', key='-TOUT_1-')],
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[sg.Graph(canvas_size=GRAPH_CANVAS_SIZE, graph_bottom_left=(0, GRAPH_T_MIN), graph_top_right=(GRAPH_POINTS_NUMBER, GRAPH_T_MAX),
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background_color=GRAPH_BG_COLOR, enable_events=False, drag_submits=False, key='-GraphT1-')],
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# [sg.HSeparator(pad=(10,15), color=sg.theme_background_color())],
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[sg.Push(), sg.Text(READ_CURRENT_TEXT+' 1: ', pad=OUTPUT_TEXT_PAD, key='-IOUT_1-')],
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[sg.Graph(canvas_size=GRAPH_CANVAS_SIZE, graph_bottom_left=(0, GRAPH_I_MIN), graph_top_right=(GRAPH_POINTS_NUMBER, GRAPH_I_MAX),
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background_color=GRAPH_BG_COLOR, enable_events=False, drag_submits=False, key='-GraphI1-')]]
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layout_input_col2 = [[sg.Text(SET_TEMPERATURE_TEXT_2, size=(SET_TEXT_WIDTH, 1)), sg.Push(),
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sg.Input(params['Temp_2'], disabled_readonly_background_color="Gray", size=(SET_INPUT_WIDTH,1), key='-InputT2-', disabled = True)],
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[sg.Text(SET_CURRENT_TEXT_2, size=(SET_TEXT_WIDTH, 1)), sg.Push(),
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sg.Input(params['Iset_2'], disabled_readonly_background_color="Gray", size=(SET_INPUT_WIDTH,1), key='-InputI2-', disabled = True)],
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[sg.HSeparator(pad=H_SEPARATOR_PAD)],
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[sg.Push(), sg.Text(READ_TEMPERATURE_TEXT+' 2: ', key='-TOUT_2-')],
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[sg.Graph(canvas_size=GRAPH_CANVAS_SIZE, graph_bottom_left=(0, GRAPH_T_MIN), graph_top_right=(GRAPH_POINTS_NUMBER, GRAPH_T_MAX),
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background_color=GRAPH_BG_COLOR, enable_events=False, drag_submits=False, key='-GraphT2-')],
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# [sg.HSeparator(pad=(10,15), color=sg.theme_background_color())],
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[sg.Push(), sg.Text(READ_CURRENT_TEXT+' 2: ', pad=OUTPUT_TEXT_PAD, key='-IOUT_2-')],
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[sg.Graph(canvas_size=GRAPH_CANVAS_SIZE, graph_bottom_left=(0, GRAPH_I_MIN), graph_top_right=(GRAPH_POINTS_NUMBER, GRAPH_I_MAX),
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background_color=GRAPH_BG_COLOR, enable_events=False, drag_submits=False, key='-GraphI2-')]]
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layout_input_col3 = [
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[sg.Text(SET_MANUAL_MODE_TEXT, size=(SET_TEXT_WIDTH_NEW, 1)), sg.Checkbox('', default=False, key='-EnableManualSettings-')],
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[sg.Text(SET_MIN_TEMPERATURE_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Min_Temp_1'], size=(SET_INPUT_WIDTH,1), key='-InputMinT1-', disabled=True, disabled_readonly_background_color="Gray"), sg.Checkbox('', default=False, key='-EnableT1-')],
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[sg.Text(SET_MAX_TEMPERATURE_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Max_Temp_1'], size=(SET_INPUT_WIDTH,1), key='-InputMaxT1-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_MIN_CURRENT_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Min_Current_1'], size=(SET_INPUT_WIDTH,1), key='-InputMinC1-', disabled=True, disabled_readonly_background_color="Gray"), sg.Checkbox('', default=False, key='-EnableC1-')],
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[sg.Text(SET_MAX_CURRENT_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Max_Current_1'], size=(SET_INPUT_WIDTH,1), key='-InputMaxC1-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_DELTA_TEMPERATURE_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Delta_Temp_1'], size=(SET_INPUT_WIDTH,1), key='-InputDeltaT1-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_DELTA_CURRENT_TEXT_1, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Delta_Current_1'], size=(SET_INPUT_WIDTH,1), key='-InputDeltaC1-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.HSeparator(pad=H_SEPARATOR_PAD)],
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[sg.Text(SET_MIN_TEMPERATURE_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Min_Temp_2'], size=(SET_INPUT_WIDTH,1), key='-InputMinT2-', disabled=True, disabled_readonly_background_color="Gray"), sg.Checkbox('', default=False, key='-EnableT2-')],
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[sg.Text(SET_MAX_TEMPERATURE_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Max_Temp_2'], size=(SET_INPUT_WIDTH,1), key='-InputMaxT2-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_MIN_CURRENT_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Min_Current_2'], size=(SET_INPUT_WIDTH,1), key='-InputMinC2-', disabled=True, disabled_readonly_background_color="Gray"), sg.Checkbox('', default=False, key='-EnableC2-')],
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[sg.Text(SET_MAX_CURRENT_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Max_Current_2'], size=(SET_INPUT_WIDTH,1), key='-InputMaxC2-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_DELTA_TEMPERATURE_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Delta_Temp_2'], size=(SET_INPUT_WIDTH,1), key='-InputDeltaT2-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_DELTA_CURRENT_TEXT_2, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Delta_Current_2'], size=(SET_INPUT_WIDTH,1), key='-InputDeltaC2-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.HSeparator(pad=H_SEPARATOR_PAD)],
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[sg.Text(SET_DELTA_T_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Delta_Time'], size=(SET_INPUT_WIDTH,1), key='-InputDeltaTime-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.Text(SET_TAU_T_TEXT, size=(SET_TEXT_WIDTH_NEW,1)),
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sg.Input(params['Tau'], size=(SET_INPUT_WIDTH,1), key='-InputTau-', disabled=True, disabled_readonly_background_color="Gray")],
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[sg.HSeparator(pad=H_SEPARATOR_PAD)],
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[sg.Button(SET_START_BUTTON_TEXT, key='-StartCycle-', disabled_button_color=("Gray22", "Blue"), disabled=True), sg.Button(SET_STOP_BUTTON_TEXT, disabled_button_color=("Gray22", "Blue"), key='-StopCycle-', disabled=True)]]
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layout = [[sg.Column(layout_input_col1, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col2, pad=(0,0)), sg.VSeparator(pad=(4,0)), sg.Column(layout_input_col3, pad=(0,0))],
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[sg.HSeparator(pad=(25,10))],
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[sg.Text('', size=((3 if COMPACT_LAYOUT else 7),1)),
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sg.Text('T терм 1:', size=(VOLTAGE_TEXT_WIDTH,1), key='-TTerm1-'), sg.Text('T терм 2:', size=(VOLTAGE_TEXT_WIDTH,1), key='-TTerm2-'),
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sg.Text('3V3:', size=(VOLTAGE_TEXT_WIDTH,1), key='-3V3-'), sg.Text('5V1:', size=(VOLTAGE_TEXT_WIDTH,1), key='-5V1-'),
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sg.Text('5V2:', size=(VOLTAGE_TEXT_WIDTH,1), key='-5V2-'), sg.Text('7V0:', size=(VOLTAGE_TEXT_WIDTH,1), key='-7V0-'),
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sg.Push(), sg.Text('', key='-DateTime-', pad=(1,10)),
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sg.Text('', size=(10,1))],
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[sg.Exit('Выход', pad=(1,5), size=(10,1), key='-EXIT-')]]
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window = sg.Window(WINDOW_TITLE, layout, finalize=True, element_justification='c', size=window_size, resizable=True)
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window.bind('<Escape>', '-EXIT-')
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return window
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def sign_axes(window):
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signs_dict = {}
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signs_dict['-GraphT1-'] = \
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(window['-GraphT1-'].draw_text(text=str(GRAPH_T_MIN)+' C', location=(3, GRAPH_T_MIN+(GRAPH_T_MAX-GRAPH_T_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR),
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window['-GraphT1-'].draw_text(text=str(GRAPH_T_MAX)+' C', location=(3, GRAPH_T_MAX-(GRAPH_T_MAX-GRAPH_T_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR))
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signs_dict['-GraphI1-'] = \
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(window['-GraphI1-'].draw_text(text=str(GRAPH_I_MIN)+' мА', location=(4, GRAPH_I_MIN+(GRAPH_I_MAX-GRAPH_I_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR),
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window['-GraphI1-'].draw_text(text=str(GRAPH_I_MAX)+' мА', location=(4, GRAPH_I_MAX-(GRAPH_I_MAX-GRAPH_I_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR))
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signs_dict['-GraphT2-'] = \
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(window['-GraphT2-'].draw_text(text=str(GRAPH_T_MIN)+' C', location=(3, GRAPH_T_MIN+(GRAPH_T_MAX-GRAPH_T_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR),
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window['-GraphT2-'].draw_text(text=str(GRAPH_T_MAX)+' C', location=(3, GRAPH_T_MAX-(GRAPH_T_MAX-GRAPH_T_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR))
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signs_dict['-GraphI2-'] = \
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(window['-GraphI2-'].draw_text(text=str(GRAPH_I_MIN)+' мА', location=(4, GRAPH_I_MIN+(GRAPH_I_MAX-GRAPH_I_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR),
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window['-GraphI2-'].draw_text(text=str(GRAPH_I_MAX)+' мА', location=(4, GRAPH_I_MAX-(GRAPH_I_MAX-GRAPH_I_MIN)*0.05), color=GRAPH_SIGN_AXES_COLOR))
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return signs_dict
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