import time import queue import tkinter as tk import numpy as np from gui.popup import CalibrationPopUp from gui.graph import Graph class MainWindow(tk.Frame): def __init__(self, root, ac_sensor, ac_queue, ac_cal_state): self.root = root self.popup = None self.ac_cal_state = ac_cal_state self.ac_sensor = ac_sensor self.ac_queue = ac_queue tk.Frame.__init__(self, root) # data plot at left side self.graph = Graph(self) self.graph.pack(fill=tk.BOTH, side=tk.LEFT, expand=True) # frame at right side self.controls = tk.Frame(self, borderwidth=4) self.controls.pack(fill=tk.BOTH, side=tk.RIGHT) self.controlsUpdateTime = 0 self.ac_dro_val_sums = np.ndarray((4), dtype=np.float) self.ac_dro_val_count = 0 self.ac_dro_x = tk.StringVar() self.ac_dro_y = tk.StringVar() self.ac_dro_t1 = tk.StringVar() self.ac_dro_t2 = tk.StringVar() tk.Label(self.controls, text="Acustic Sensor", anchor="c", font=("Helvatica", 10, 'bold')).pack(side="top", fill="both", expand=False) tk.Label(self.controls, textvariable=self.ac_dro_x, anchor="nw").pack(side="top", fill="both", expand=False) tk.Label(self.controls, textvariable=self.ac_dro_y, anchor="nw").pack(side="top", fill="both", expand=False) tk.Label(self.controls, textvariable=self.ac_dro_t1, anchor="nw").pack(side="top", fill="both", expand=False) tk.Label(self.controls, textvariable=self.ac_dro_t2, anchor="nw").pack(side="top", fill="both", expand=False) quit_button = tk.Button(self.controls, text="Quit", command=self.root.destroy, height=2, foreground="red") quit_button.pack(side="bottom", fill="both") calibrate_button = tk.Button(self.controls, text="Calibrate", command=self.calibrate, height=4) calibrate_button.pack(side="bottom", fill="both") clear_button = tk.Button(self.controls, text="Clear graph", command=self.graph.clear, height=4) clear_button.pack(side="bottom", fill="both") def update(self): if not self.root.winfo_exists(): return ac_positions = [] # aggregate measurements while self.ac_queue.qsize() > 0: name, data = self.ac_queue.get() if name == "data": ac_positions.append(data[0:2]) self.ac_dro_val_sums += data self.ac_dro_val_count += 1 # graph shows all values as a line if len(ac_positions) > 0: self.graph.update([ac_positions]) # readouts will only be updated so often if self.controlsUpdateTime + 0.4 < time.time(): self.controlsUpdateTime = time.time() # they display the average of all values if self.ac_dro_val_count > 0: self.ac_dro_val_sums /= self.ac_dro_val_count else: self.ac_dro_val_sums.fill(0) self.ac_dro_x.set("X: {:.1f} mm".format(self.ac_dro_val_sums[0])) self.ac_dro_y.set("Y: {:.1f} mm".format(self.ac_dro_val_sums[1])) self.ac_dro_t1.set("t1: {:.3f} ms".format(self.ac_dro_val_sums[2]/1000)) self.ac_dro_t2.set("t2: {:.3f} ms".format(self.ac_dro_val_sums[3]/1000)) self.ac_dro_val_sums.fill(0) self.ac_dro_val_count = 0 if self.popup: self.popup.update() self.root.after(30, self.update) def calibrate(self): self.ac_sensor.start_calibration() if not self.popup or not self.pu_root.winfo_exists(): # create new window self.pu_root = tk.Toplevel(self.root) self.pu_root.wm_transient(self.root) self.pu_root.wm_title("Calibration") # make it centered x = (self.pu_root.winfo_screenwidth() - 500) / 2 y = (self.pu_root.winfo_screenheight() - 200) / 2 self.pu_root.geometry(f'500x200+{int(x)}+{int(y)}') # deactivate mainWindow self.pu_root.grab_set() self.popup = CalibrationPopUp(self.pu_root, self.ac_cal_state) self.popup.pack(side="top", fill="both", expand=True)