I am trying to create a GUI using tkinter. This plots scattering angle versus detector distance once certain variables have been entered into entry fields and the 'plot' button has been clicked. This plot shows up in the canvas I have created. The plot method is 'def flup()', about half way down the code which is carried out by clicking the button named 'bgra'. When I alter the variables in the entry fields then hit plot again the program adds another plot to the canvas, which is fine. What I want to do is add a button who's command is to clear the entire canvas. Just below the plot method 'flup()' there is the start of a method named def clear() in which I want to define a function which will be used by a button to clear the canvas. That button, you'll notice, has been created a few lines below that and is called 'delete'. Could someone please give me an example of the small piece of code I will need to include in the def clear() method in order that that button will clear the canvas. I am a novice and I realise this is probably a mess but for the most part it does work. My apologies for all the code. Thanks in advance for any help.
from numpy import * import matplotlib.pyplot as plt fromTkinter import * import tkMessageBox from pylab import savefig from matplotlib.backends.backend_tkagg import FigureCanvasTkAgg,NavigationToolbar2TkAgg import matplotlib.backend_bases from matplotlib.figure import Figure def rutherford(): tkMessageBox.showinfo("hello world", j) def N(): tkMessageBox.showinfo("Variable N", "Number of alpha particles incident on foil") def T(): tkMessageBox.showinfo('Variable t', 'Thickness of foil in metres') def K(): tkMessageBox.showinfo('Variable E', 'Kinetic energy of alpha particles in joules') def atom(): tkMessageBox.showinfo('Variable Z', 'Atomic number of element from which the foil is made, or the name of the element') class App: def __init__(self, master): frame = Frame(master) #creates the first frame Button(frame, text = "?", command=N).grid(row=1,column=2) #various help buttons Button(frame, text = "?", command=T).grid(row=2,column=2) Button(frame, text = "?", command=K).grid(row=3,column=2) Button(frame, text = "?", command=atom).grid(row=4,column=2) Nlabel = Label(frame, text = "N =").grid(row=1, column=0, sticky=E) #labels next to the entry frame tlabel = Label(frame, text="t =").grid(row=2,column=0, sticky=E) Elabel = Label(frame, text="E =").grid(row=3,column=0, sticky=E) Zlabel = Label(frame, text="Z =").grid(row=4, column=0, sticky=E) eN=Entry(frame) eN.grid(row=1,column=1) et=Entry(frame) et.grid(row=2,column=1) eE=Entry(frame) eE.grid(row=3,column=1) eZ=Entry(frame) eZ.grid(row=4,column=1) def flup(): #the plot N=float(eN.get())#turn string into float t=float(et.get()) E=float(eE.get()) Z=float(eZ.get()) r=10*(10**-10) e=1.602*(10**-19) a=5*(10**30) i = linspace(math.pi/80, math.pi, 1000) list = for p in i: b = (N*a*t)/(16.0*(r**2)) c = ((2.0*Z*(e**2))/(E*4.0*math.pi*8.854*(10**-12)))**2 d = (1.0/(math.sin(p/2.0)))**4 n=b*c*d list.append(n) f=Figure(figsize=(5,4), dpi=100) g=f.add_subplot(1,1,1) g.plot(i,list) canvas=FigureCanvasTkAgg(f, master=master) canvas.show() canvas.get_tk_widget().pack(side=LEFT, fill=BOTH, expand=1) canvas._tkcanvas.pack(side=TOP, fill=BOTH, expand=1) #def clear(): bgra=Button(frame, text = "Plot", command=flup) #this button makes the plot bgra.grid(row=5,column=1) delete=Button(frame,text='Clear All', command=clear) delete.grid(row=5,column=2) frame2=Frame(master) b1=Button(frame2, text="Rutherford Scattering??", command=rutherford) b1.pack(side=LEFT) frame2.pack() frame.pack() root = Tk() app = App(root) root.mainloop()