Hi I have a project about robotics arm and I need to visualize motion of robotic arm. I have a code for taking coordinates and visualize it but I want a animation for it. I used for loop but I couldn’t success.

Here’s the code I’ve wrote:

import tkinter as tk
import matplotlib.pyplot as plt
import math
import numpy as np
import time
##########################################
from tkinter.ttk import Combobox
from ntpath import join
from mpl_toolkits.mplot3d import Axes3D
from matplotlib.widgets import Slider
from matplotlib import animation
##########################################

#form=tk.Tk()
#form.geometry("500x500+100+100")
#label = tk.Label(text="Robot Kol arayüz",fg="black",bg="red").pack()

form=tk.Tk()
form.title('Robot Kol Arayüz v1"')
form.resizable(False,False)
form.config(bg='gray')
form.geometry('300x150+900+100')
servoderece=tk.StringVar()
secilenservo=tk.StringVar()


def yazdır():
    #print(secilenservo.get(),',',servoderece.get(),'derece döndürüldü')

    if secilenservo.get() == 'X':
        Xguncelle(int(servoderece.get()))
    elif secilenservo.get() == 'Y':
        Yguncelle(int(servoderece.get()))
    elif secilenservo.get() == 'Z':
        Zguncelle(int(servoderece.get()))
    
    print(secilenservo.get(), ',', servoderece.get(), 'konumuna getirildi.')



label=tk.Label(text='HANGİ SERVO?',bg='gray',fg='black').pack()
values=['X','Y','Z']
servosec=Combobox(form,values=values,height=3,textvariable=secilenservo,).pack()
label2=tk.Label(text='Kaç derece döndürmek istiyorsunuz?',bg='gray',fg='black').pack()
spin=tk.Spinbox(form,from_=-180,to=180,textvariable=servoderece).pack()

buton=tk.Button(form,text='DÖNDÜR',command=yazdır,activebackground='blue',activeforeground='green').pack()

home = [0,0,0];

alt_kısım = 0
uzun_kol_uzunluk = 15
kucuk_kol_uzunluk = 10

eklem1 = 0
eklem2 = 0
eklem3 = 0

nokta1 = [0,0,0]
nokta2 = [0,-5,0]
nokta3 = [0,0,0]
figure = plt.figure(figsize=(7,7))            ##koordinat sisteminin ilk açıldığında ne kadarlık bir alan kaplayacağı
Axes   = figure.add_subplot(111,projection='3d')

xSlider = plt.axes([0.2, 0.1, 0.65, 0.03] )
ySlider = plt.axes([0.2, 0.065, 0.65, 0.03] )
zSlider = plt.axes([0.2, 0.03, 0.65, 0.03] )

sliderX = Slider(xSlider, 'X', 0, 180.0, valinit=0, valstep = 1)
sliderY = Slider(ySlider, 'Y', -180, 15.0, valinit=-90, valstep = 1)
sliderZ = Slider(zSlider, 'Z', -155, 155.0, valinit=-155, valstep = 1)

def forwKinematik(aci1,aci2,aci3):
    # 1.nokta
    trans = np.dot(np.matrix([[1,0,0,alt_kısım],
                             [0,1,0,0],
                             [0,0,1,0],
                             [0,0,0,1]]),np.matrix([home[0],home[1],home[2],1]).transpose())
    nokta1[0] = trans[(0,0)]
    nokta1[1] = trans[(1,0)]
    nokta1[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci1)),-math.sin(math.radians(aci1)),0,0],
                        [math.sin(math.radians(aci1)),math.cos(math.radians(aci1)),0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta1[0],nokta1[1],nokta1[2],1]).transpose())
    nokta1[0] = rot[(0,0)]
    nokta1[1] = rot[(1,0)]
    nokta1[2] = rot[(2,0)]
    
    # 2.nokta
    trans = np.dot(np.matrix([[1,0,0,uzun_kol_uzunluk],
                        [0,1,0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([home[0],home[1],home[2],1]).transpose())
    nokta2[0] = trans[(0,0)]
    nokta2[1] = trans[(1,0)]
    nokta2[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci2)),0,math.sin(math.radians(aci2)),0],
                        [0,1,0,0],
                        [-math.sin(math.radians(aci2)),0,math.cos(math.radians(aci2)),0],
                        [0,0,0,1]]),np.matrix([nokta2[0],nokta2[1],nokta2[2],1]).transpose())
    
    nokta2[0] = rot[(0,0)]
    nokta2[1] = rot[(1,0)]
    nokta2[2] = rot[(2,0)]

    trans = np.dot(np.matrix([[1,0,0,alt_kısım],
                        [0,1,0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta2[0],nokta2[1],nokta2[2],1]).transpose())
    nokta2[0] = trans[(0,0)]
    nokta2[1] = trans[(1,0)]
    nokta2[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci1)),-math.sin(math.radians(aci1)),0,0],
                        [math.sin(math.radians(aci1)),math.cos(math.radians(aci1)),0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta2[0],nokta2[1],nokta2[2],1]).transpose())
    
    nokta2[0] = rot[(0,0)]
    nokta2[1] = rot[(1,0)]
    nokta2[2] = rot[(2,0)]

    # 3.nokta
    trans = np.dot(np.matrix([[1,0,0,kucuk_kol_uzunluk],
                        [0,1,0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([home[0],home[1],home[2],1]).transpose())
    nokta3[0] = trans[(0,0)]
    nokta3[1] = trans[(1,0)]
    nokta3[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci3)),0,math.sin(math.radians(aci3)),0],
                        [0,1,0,0],
                        [-math.sin(math.radians(aci3)),0,math.cos(math.radians(aci3)),0],
                        [0,0,0,1]]),np.matrix([nokta3[0],nokta3[1],nokta3[2],1]).transpose())
    
    nokta3[0] = rot[(0,0)]
    nokta3[1] = rot[(1,0)]
    nokta3[2] = rot[(2,0)]

    trans = np.dot(np.matrix([[1,0,0,uzun_kol_uzunluk],
                        [0,1,0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta3[0],nokta3[1],nokta3[2],1]).transpose())
    nokta3[0] = trans[(0,0)]
    nokta3[1] = trans[(1,0)]
    nokta3[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci2)),0,math.sin(math.radians(aci2)),0],
                        [0,1,0,0],
                        [-math.sin(math.radians(aci2)),0,math.cos(math.radians(aci2)),0],
                        [0,0,0,1]]),np.matrix([nokta3[0],nokta3[1],nokta3[2],1]).transpose())

    nokta3[0] = rot[(0,0)]
    nokta3[1] = rot[(1,0)]
    nokta3[2] = rot[(2,0)] 
    
    trans = np.dot(np.matrix([[1,0,0,alt_kısım],
                        [0,1,0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta3[0],nokta3[1],nokta3[2],1]).transpose())
    nokta3[0] = trans[(0,0)]
    nokta3[1] = trans[(1,0)]
    nokta3[2] = trans[(2,0)]

    rot = np.dot(np.matrix([[math.cos(math.radians(aci1)),-math.sin(math.radians(aci1)),0,0],
                        [math.sin(math.radians(aci1)),math.cos(math.radians(aci1)),0,0],
                        [0,0,1,0],
                        [0,0,0,1]]),np.matrix([nokta3[0],nokta3[1],nokta3[2],1]).transpose())
    
    nokta3[0] = rot[(0,0)]
    nokta3[1] = rot[(1,0)]
    nokta3[2] = rot[(2,0)]


    return nokta1, nokta2, nokta3

def Xguncelle(value=servoderece.get()):
    global eklem1
    if value>180:           #servo 180 dereceden fazla ve 0dan az değer alırsa değeri max min alabileceği değere sabitle
        value=180
    elif value<0:
        value=0
    eklem1 = value
    Axes.clear()

    nokta1,nokta2,nokta3 = forwKinematik(eklem1 ,eklem2,    eklem3)

    Axes.plot([home[0],nokta1[0]],[home[1],nokta1[1]],[home[2],nokta1[2]])
    Axes.plot([nokta1[0],nokta2[0]],[nokta1[1],nokta2[1]],[nokta1[2],nokta2[2]])
    Axes.plot([nokta2[0],nokta3[0]],[nokta2[1],nokta3[1]],[nokta2[2],nokta3[2]])

    Axes.plot([-10,10],[0,0],[0,0], color='red')
    Axes.plot([0,0],[-10,10],[0,0], color='green')
    Axes.plot([0,0],[0,0],[-10,10], color='blue')
    plt.draw()

def Yguncelle(value=servoderece.get()):
    global eklem2
    if value>15:           #servo 15 dereceden fazla ve -180den az değer alırsa değeri max min alabileceği değere sabitle
        value=15
    elif value<-180:
        value=180
    eklem2 = value
    Axes.clear()

    nokta1,nokta2,nokta3 = forwKinematik(eklem1,eklem2,eklem3)

    Axes.plot([home[0],nokta1[0]],[home[1],nokta1[1]],[home[2],nokta1[2]])
    Axes.plot([nokta1[0],nokta2[0]],[nokta1[1],nokta2[1]],[nokta1[2],nokta2[2]])
    Axes.plot([nokta2[0],nokta3[0]],[nokta2[1],nokta3[1]],[nokta2[2],nokta3[2]])

    Axes.plot([-10,10],[0,0],[0,0], color='red')
    Axes.plot([0,0],[-10,10],[0,0], color='green')
    Axes.plot([0,0],[0,0],[-10,10], color='blue')
    plt.draw()

def Zguncelle(value=servoderece.get()):
    global eklem3
    if value>155:           #servo 155 dereceden fazla ve -155den az değer alırsa değeri max min alabileceği değere sabitle
        value=155
    elif value<-155:
        value=-155
    for i in range (0,value,1):
        eklem3 = i
        Axes.clear()

        nokta1,nokta2,nokta3 = forwKinematik(eklem1,eklem2,eklem3)

    Axes.plot([home[0],nokta1[0]],[home[1],nokta1[1]],[home[2],nokta1[2]])
    Axes.plot([nokta1[0],nokta2[0]],[nokta1[1],nokta2[1]],[nokta1[2],nokta2[2]])
    Axes.plot([nokta2[0],nokta3[0]],[nokta2[1],nokta3[1]],[nokta2[2],nokta3[2]])

    Axes.plot([-10,10],[0,0],[0,0], color='red')
    Axes.plot([0,0],[-10,10],[0,0], color='green')
    Axes.plot([0,0],[0,0],[-10,10], color='blue')
    plt.draw()

sliderX.on_changed(Xguncelle)
sliderY.on_changed(Yguncelle)
sliderZ.on_changed(Zguncelle)

plt.show()
form.mainloop()

It’s the old version of the code because I am using some raspberry pi librarys and this one is only for visualize GUI. I just need help in animation part.

I wanna make animation when robot arms are changing the coordinate.