Goal: 30 minutes of timed activity that cycles through a series of alternating slow and intense exercises. The window starts by displaying a countdown timer starting at 30 minutes. The exercise starts with 30 seconds of "slow" activity - with the word "Slow" displayed below the timer. It then continues with 60 seconds of an intense exercise. Then 30 seconds of slow pace, followed by 60 seconds of a different intense exercise, and so on. In all, 4 different intense exercises each alternating with a slow pace.
I've assembled the code below. I don't believe it is intuitive. I don't like bouncing around methods and I feel there are methods out there that can be used to make this more efficient. On a practical level, this doesn't work well as the timer and the message (i.e. slow / exercise # displayed) start to become out of synch. I've researched python blogs and keep "hearing" something about Tkinter not being multithreaded. I'm guessing that the after(x,y) becomes compromised as the countdown thread takes up resources.... Not really sure. Also, I'd like to add a tone after each method as an audio queue for the "athletes" Anyway, thanks in advance for looking at my crude code.
import Tkinter as tk class ExampleApp(tk.Tk): def __init__(self): tk.Tk.__init__(self) self.label = tk.Label(self, text="", width=10, font= ("Helvetica",72), background='yellow', fg = 'red') self.label2 = tk.Label(self, text="", width=10, font=("Helvetica",72), background='yellow', fg = 'blue') self.label.pack() self.label2.pack() self.remaining = 0 self.countdown(1800) # the 30 minutes countdown initialization self.run = True def countdown(self, remaining = None): if self.remaining == 1799: # marker that starts the methods series self.start() if remaining is not None: self.remaining = remaining if self.remaining >= 1: mins = int(self.remaining/60) #rsecs = self.remaining - mins * 60 #could use this rsecs = self.remaining % 60 #same results as t - mins * 60 self.remaining = self.remaining -1 self.after(1000, self.countdown) self.label.configure(text ="%.2f" % (mins + rsecs / 100.0)) else: self.label.configure(text="Stop") def start(self): app.after(0, self.slow1) return def slow1(self): self.label2.configure(text="Slow" ) app.after(30000, self.fast1) return def fast1(self): self.label2.configure(text="Exercise 1" ) app.after(61000, self.slow2) return def slow2(self): self.label2.configure(text="Slow" ) app.after(31000, self.fast2) return def fast2(self): self.label2.configure(text="Exercise 2" ) app.after(61000, self.slow3) return def slow3(self): self.label2.configure(text="Slow" ) app.after(30000, self.fast3) return def fast3(self): self.label2.configure(text="Exercise 3" ) app.after(60000, self.slow4) return def slow4(self): self.label2.configure(text="Slow" ) app.after(30000, self.fast4) return def fast4(self): self.label2.configure(text="Exercise 4" ) app.after(60000, self.slow1) return if __name__ == "__main__": app = ExampleApp() app.title("Intense Workout") app.geometry('550x550+200+200') app.configure(background='yellow') app.mainloop()