print(error) else: engine = Dlae(configs) if any(engine.errors): print('Level 3 errors encountered.') print( "Please fix the level 3 errors below before continuing:" ) for error in engine.errors: print(error) else: engine.run() if any(engine.errors): print('Level 3 errors encountered.') print( "Please fix the level 3 errors below before continuing:" ) for error in engine.errors: print(error) else: root = tk.Tk() root.resizable(width=False, height=False) root.tk.call('wm', 'iconphoto', root._w, tk.PhotoImage(file="src/gui/button_figs/other/icon.png")) DlaeGui(root).grid() try: root.mainloop() except KeyboardInterrupt: quit()
def __init__(self, parent): self.myParent = parent self.myContainer1 = ttk.Frame(parent) self.myContainer1.pack() # Layout constants # button_width = 6 buttons_padx = "2m" buttons_pady = "1m" buttons_frame_padx = "6m" buttons_frame_pady = "2m" buttons_frame_ipadx = "3m" buttons_frame_ipady = "1m" self.output_frame = ttk.Frame(self.myContainer1) self.output_frame.pack() self.outputPlot = tk.Canvas(self.output_frame) self.outputPlot.configure(height='650', width='650', bg='#1D1D1D', bd=0) self.outputPlot.pack(side=tk.LEFT) self.img = tk.PhotoImage(file='sidebar.gif') self.sidebar = ttk.Label(self.output_frame, image=self.img) self.sidebar.pack(side=tk.LEFT) self.labelFrame = ttk.Frame(self.output_frame) self.labelFrame.pack(side=tk.LEFT, fill=tk.Y) self.sideLabel0 = ttk.Label(self.labelFrame, text="24a₀") self.sideLabel0.pack(side=tk.TOP) self.sideLabel2 = ttk.Label(self.labelFrame, text="-24a₀") self.sideLabel2.pack(side=tk.BOTTOM) self.input_frame = ttk.Frame(self.myContainer1) self.input_frame.pack(side=tk.BOTTOM, ipadx=buttons_frame_ipady, ipady=buttons_frame_ipady, padx=buttons_frame_padx, pady=buttons_frame_pady, fill=tk.X) self.nLabel = ttk.Label(self.input_frame, text="Principal (n):") self.nLabel.pack(side=tk.LEFT) self.nInput = ttk.Entry(self.input_frame) self.nInput.configure( width=3, validate='key', #Add validation for values# validatecommand='') self.nInput.pack(side=tk.LEFT) self.lLabel = ttk.Label(self.input_frame, text=" Orbital (l):") self.lLabel.pack(side=tk.LEFT) self.lInput = ttk.Entry(self.input_frame) self.lInput.configure( width=3, validate='key', #Validation validatecommand='') self.lInput.pack(side=tk.LEFT) self.mlLabel = ttk.Label(self.input_frame, text=" Magnetic (m):") self.mlLabel.pack(side=tk.LEFT) self.mlInput = ttk.Entry(self.input_frame) self.mlInput.configure(width=3) self.mlInput.pack(side=tk.LEFT) self.iterationLabel = ttk.Label(self.input_frame, text=" Iterations (x1000):") self.iterationLabel.pack(side=tk.LEFT) self.iterationInput = ttk.Entry(self.input_frame) self.iterationInput.configure(width=6) self.iterationInput.pack(side=tk.LEFT) self.goButton = ttk.Button(self.input_frame, text='Go!', command=self.goClick) self.goButton.pack(side=tk.LEFT)
title="Non-solvable puzzle", message="The algorithm did not manage to find a" + " solution for the submitted puzzle. It's pretty" + " smart so you better check input for errors.") return # end of fx return """ MAIN """ # create a root window root = tk.Tk() root.wm_title("sudoku-solver") root.call('wm', 'iconphoto', root._w, tk.PhotoImage(file='res/sudoku.png')) #root.geometry("400x400") frame = tk.Frame(root) #frame.config(bg="#FFFFFF") frame.pack() # menu bar: mainMenu = tk.Menu(root) root.config(menu=mainMenu) fileMenu = tk.Menu(mainMenu, tearoff=0) mainMenu.add_cascade(label="File", menu=fileMenu) # add commands to file menu: fileMenu.add_command(label="New", command=New) fileMenu.add_command(label="Open", command=Open) fileMenu.add_separator() fileMenu.add_command(label="Quit", command=root.destroy)
def support(): entry.delete(1.0, tk.END) file_s = open("support/support.txt", "r", encoding='utf-8') contents = file_s.read() entry.insert(tk.END, contents) file_s.close() winsound.PlaySound("windows.wav", winsound.SND_ASYNC) # satrt the GUI root = tk.Tk() root.title('voice to text') canvas = tk.Canvas(root, height=500, width=900) canvas.pack() background_image = tk.PhotoImage(file='image/bg.png') background_label = tk.Label(root, image=background_image) background_label.place(relwidth=1, relheight=1) frame = tk.Frame(root, bg='#3498DB', bd=5) frame.place(relx=0.41, rely=0.08, relwidth=0.76, relheight=0.86, anchor='n') #============================================================================= entry = tk.Text(frame, font=("jameel noori nastaleeq", 14)) entry.place(relx=0, rely=0, relwidth=1, relheight=1) show_file() # copy data inside file.txt to clipboard def copy():
outputLabel['text'] += "\nShoulder to hips ratio: " + str(ratioSH) # Resize window cv2.namedWindow('Image', cv2.WINDOW_NORMAL) cv2.resizeWindow('Image', 300,500) cv2.imshow('Image', img) if __name__ == "__main__": # Main part of the program # Creation of GUI root = tk.Tk() canvas = tk.Canvas(root, height=HEIGHT, width=WIDTH) canvas.pack() bgImage = tk.PhotoImage(file='./images/background.png') bgLabel = tk.Label(root, image=bgImage) bgLabel.place(relwidth=1, relheight=1) frameInput = tk.Frame(root, bg='#f97235', bd=5) frameInput.place(relx=0.125, rely=0.1, relwidth=0.75, relheight=0.075) entry = tk.Entry(frameInput) entry.place(relwidth=0.8, relheight=1) buttonBrowse = tk.Button(frameInput, text="Browse", command=getImage) buttonBrowse.place(relx=0.85, relwidth=0.15, relheight=1) frameOutput = tk.Frame(root, bg='#f97235', bd=5) frameOutput.place(relx=0.125, rely=0.25, relwidth=0.75, relheight=0.55)
def loop(): #GUI global tcpClicSock,BtnIP,led_status,BtnVIN,l_VIN,TestMode #The value of tcpClicSock changes in the function loop(),would also changes in global so the other functions could use it. while True: root = tk.Tk() #Define a window named root root.title('Adeept') #Main window title root.geometry('917x630') #Main window size, middle of the English letter x. root.config(bg=color_bg) #Set the background color of root window var_spd = tk.StringVar() #Speed value saved in a StringVar var_spd.set(1) #Set a default speed,but change it would not change the default speed value in the car,you need to click button'Set' to send the value to the car var_x_scan = tk.IntVar() #Scan range value saved in a IntVar var_x_scan.set(2) #Set a default scan value logo =tk.PhotoImage(file = 'logo.png') #Define the picture of logo,but only supports '.png' and '.gif' l_logo=tk.Label(root,image = logo,bg=color_bg) #Set a label to show the logo picture l_logo.place(x=30,y=13) #Place the Label in a right position BtnC1 = tk.Button(root, width=15, text='Camera Middle',fg=color_text,bg=color_btn,relief='ridge') BtnC1.place(x=785,y=10) E_C1 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_C1.place(x=785,y=45) #Define a Entry and put it in position BtnC2 = tk.Button(root, width=15, text='Ultrasonic Middle',fg=color_text,bg=color_btn,relief='ridge') BtnC2.place(x=785,y=100) E_C2 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_C2.place(x=785,y=135) #Define a Entry and put it in position BtnM1 = tk.Button(root, width=15, text='Motor A Speed',fg=color_text,bg=color_btn,relief='ridge') BtnM1.place(x=785,y=190) E_M1 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_M1.place(x=785,y=225) #Define a Entry and put it in position BtnM2 = tk.Button(root, width=15, text='Motor B Speed',fg=color_text,bg=color_btn,relief='ridge') BtnM2.place(x=785,y=280) E_M2 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_M2.place(x=785,y=315) #Define a Entry and put it in position BtnT1 = tk.Button(root, width=15, text='Look Up Max',fg=color_text,bg=color_btn,relief='ridge') BtnT1.place(x=785,y=370) E_T1 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_T1.place(x=785,y=405) #Define a Entry and put it in position BtnT2 = tk.Button(root, width=15, text='Look Down Max',fg=color_text,bg=color_btn,relief='ridge') BtnT2.place(x=785,y=460) E_T2 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1',exportselection=0,justify='center') E_T2.place(x=785,y=495) #Define a Entry and put it in position BtnLED = tk.Button(root, width=15, text='Lights ON',fg=color_text,bg=color_btn,relief='ridge') BtnLED.place(x=300,y=420) BtnOCV = tk.Button(root, width=15, text='OpenCV',fg=color_text,bg=color_btn,relief='ridge',command=call_opencv) BtnOCV.place(x=30,y=420) BtnFL = tk.Button(root, width=15, text='Find Line',fg=color_text,bg=color_btn,relief='ridge') BtnFL.place(x=165,y=420) BtnSR3 = tk.Button(root, width=15, text='Sphinx SR',fg=color_text,bg=color_btn,relief='ridge',command=call_SR3) BtnSR3.place(x=300,y=495) E_C1.insert ( 0, 'Default:425' ) E_C2.insert ( 0, 'Default:425' ) E_M1.insert ( 0, 'Default:100' ) E_M2.insert ( 0, 'Default:100' ) E_T1.insert ( 0, 'Default:662' ) E_T2.insert ( 0, 'Default:295' ) can_scan = tk.Canvas(root,bg=color_can,height=250,width=320,highlightthickness=0) #define a canvas can_scan.place(x=440,y=330) #Place the canvas line = can_scan.create_line(0,62,320,62,fill='darkgray') #Draw a line on canvas line = can_scan.create_line(0,124,320,124,fill='darkgray') #Draw a line on canvas line = can_scan.create_line(0,186,320,186,fill='darkgray') #Draw a line on canvas line = can_scan.create_line(160,0,160,250,fill='darkgray') #Draw a line on canvas line = can_scan.create_line(80,0,80,250,fill='darkgray') #Draw a line on canvas line = can_scan.create_line(240,0,240,250,fill='darkgray') #Draw a line on canvas x_range = var_x_scan.get() can_tex_11=can_scan.create_text((27,178),text='%sm'%round((x_range/4),2),fill='#aeea00') #Create a text on canvas can_tex_12=can_scan.create_text((27,116),text='%sm'%round((x_range/2),2),fill='#aeea00') #Create a text on canvas can_tex_13=can_scan.create_text((27,54),text='%sm'%round((x_range*0.75),2),fill='#aeea00') #Create a text on canvas def spd_set(): #Call this function for speed adjustment tcpClicSock.send(('spdset:%s'%var_spd.get()).encode()) #Get a speed value from IntVar and send it to the car l_ip_2.config(text='Speed:%s'%var_spd.get()) #Put the speed value on the speed status label def EC1_set(event): #Call this function for speed adjustment tcpClicSock.send(('EC1set:%s'%E_C1.get()).encode()) #Get a speed value from IntVar and send it to the car def EC2_set(event): #Call this function for speed adjustment tcpClicSock.send(('EC2set:%s'%E_C2.get()).encode()) #Get a speed value from IntVar and send it to the car def EM1_set(event): #Call this function for speed adjustment tcpClicSock.send(('EM1set:%s'%E_M1.get()).encode()) #Get a speed value from IntVar and send it to the car def EM2_set(event): #Call this function for speed adjustment tcpClicSock.send(('EM2set:%s'%E_M2.get()).encode()) #Get a speed value from IntVar and send it to the car def ET1_set(event): #Call this function for speed adjustment tcpClicSock.send(('LUMset:%s'%E_T1.get()).encode()) #Get a speed value from IntVar and send it to the car def ET2_set(event): #Call this function for speed adjustment tcpClicSock.send(('LDMset:%s'%E_T2.get()).encode()) #Get a speed value from IntVar and send it to the car def connect(event): #Call this function to connect with the server if ip_stu == 1: sc=thread.Thread(target=socket_connect) #Define a thread for connection sc.setDaemon(True) #'True' means it is a front thread,it would close when the mainloop() closes sc.start() #Thread starts def connect_2(): #Call this function to connect with the server if ip_stu == 1: sc=thread.Thread(target=socket_connect) #Define a thread for connection sc.setDaemon(True) #'True' means it is a front thread,it would close when the mainloop() closes sc.start() #Thread starts def socket_connect(): #Call this function to connect with the server global ADDR,tcpClicSock,BUFSIZ,ip_stu,ipaddr ip_adr=E1.get() #Get the IP address from Entry if ip_adr == '': #If no input IP address in Entry,import a default IP ip_adr=num_import('IP:') l_ip_4.config(text='Connecting') l_ip_4.config(bg='#FF8F00') l_ip_5.config(text='Default:%s'%ip_adr) pass SERVER_IP = ip_adr SERVER_PORT = 10223 #Define port serial BUFSIZ = 1024 #Define buffer size ADDR = (SERVER_IP, SERVER_PORT) tcpClicSock = socket(AF_INET, SOCK_STREAM) #Set connection value for socket for i in range (1,6): #Try 5 times if disconnected try: if ip_stu == 1: print("Connecting to server @ %s:%d..." %(SERVER_IP, SERVER_PORT)) print("Connecting") tcpClicSock.connect(ADDR) #Connection with the server print("Connected") l_ip_5.config(text='IP:%s'%ip_adr) l_ip_4.config(text='Connected') l_ip_4.config(bg='#558B2F') replace_num('IP:',ip_adr) E1.config(state='disabled') #Disable the Entry Btn14.config(state='disabled') #Disable the Entry ip_stu=0 #'0' means connected at=thread.Thread(target=code_receive) #Define a thread for data receiving at.setDaemon(True) #'True' means it is a front thread,it would close when the mainloop() closes at.start() #Thread starts SR_threading=thread.Thread(target=voice_command_thread) #Define a thread for ultrasonic tracking SR_threading.setDaemon(True) #'True' means it is a front thread,it would close when the mainloop() closes SR_threading.start() #Thread starts video_thread=thread.Thread(target=video_show) #Define a thread for data receiving video_thread.setDaemon(True) #'True' means it is a front thread,it would close when the mainloop() closes print('Video Connected') video_thread.start() #Thread starts ipaddr=tcpClicSock.getsockname()[0] break else: break except Exception: print("Cannot connecting to server,try it latter!") l_ip_4.config(text='Try %d/5 time(s)'%i) l_ip_4.config(bg='#EF6C00') print('Try %d/5 time(s)'%i) ip_stu=1 time.sleep(1) continue if ip_stu == 1: l_ip_4.config(text='Disconnected') l_ip_4.config(bg='#F44336') def code_receive(): #A function for data receiving global led_status,ipcon,findline_status,auto_status,opencv_status,speech_status,TestMode while True: code_car = tcpClicSock.recv(BUFSIZ) #Listening,and save the data in 'code_car' l_ip.config(text=code_car) #Put the data on the label #print(code_car) if not code_car: continue elif 'SET' in str(code_car): print('set get') set_list=code_car.decode() set_list=set_list.split() s1,s2,s3,s4,s5,s6=set_list[1:] E_C1.delete(0,50) E_C2.delete(0,50) E_M1.delete(0,50) E_M2.delete(0,50) E_T1.delete(0,50) E_T2.delete(0,50) E_C1.insert ( 0, '%d'%int(s1) ) E_C2.insert ( 0, '%d'%int(s2) ) E_M1.insert ( 0, '%d'%int(s3) ) E_M2.insert ( 0, '%d'%int(s4) ) E_T1.insert ( 0, '%d'%int(s5) ) E_T2.insert ( 0, '%d'%int(s6) ) elif 'list' in str(code_car): #Scan result receiving start dis_list=[] f_list=[] list_str=code_car.decode() while True: #Save scan result in dis_list code_car = tcpClicSock.recv(BUFSIZ) if 'finished' in str(code_car): break list_str+=code_car.decode() l_ip.config(text='Scanning') dis_list=list_str.split() #Save the data as a list l_ip.config(text='Finished') for i in range (0,len(dis_list)): #Translate the String-type value in the list to Float-type try: new_f=float(dis_list[i]) f_list.append(new_f) except: continue dis_list=f_list #can_scan.delete(line) #can_scan.delete(point_scan) can_scan_1 = tk.Canvas(root,bg=color_can,height=250,width=320,highlightthickness=0) #define a canvas can_scan_1.place(x=440,y=330) #Place the canvas line = can_scan_1.create_line(0,62,320,62,fill='darkgray') #Draw a line on canvas line = can_scan_1.create_line(0,124,320,124,fill='darkgray') #Draw a line on canvas line = can_scan_1.create_line(0,186,320,186,fill='darkgray') #Draw a line on canvas line = can_scan_1.create_line(160,0,160,250,fill='darkgray') #Draw a line on canvas line = can_scan_1.create_line(80,0,80,250,fill='darkgray') #Draw a line on canvas line = can_scan_1.create_line(240,0,240,250,fill='darkgray') #Draw a line on canvas x_range = var_x_scan.get() #Get the value of scan range from IntVar for i in range (0,len(dis_list)): #Scale the result to the size as canvas try: len_dis_1 = int((dis_list[i]/x_range)*250) #600 is the height of canvas pos = int((i/len(dis_list))*320) #740 is the width of canvas pos_ra = int(((i/len(dis_list))*140)+20) #Scale the direction range to (20-160) len_dis = int(len_dis_1*(math.sin(math.radians(pos_ra)))) #len_dis is the height of the line x0_l,y0_l,x1_l,y1_l=pos,(250-len_dis),pos,(250-len_dis) #The position of line x0,y0,x1,y1=(pos+3),(250-len_dis+3),(pos-3),(250-len_dis-3) #The position of arc if pos <= 160: #Scale the whole picture to a shape of sector pos = 160-abs(int(len_dis_1*(math.cos(math.radians(pos_ra))))) x1_l= (x1_l-math.cos(math.radians(pos_ra))*130) else: pos = abs(int(len_dis_1*(math.cos(math.radians(pos_ra)))))+160 x1_l= x1_l+abs(math.cos(math.radians(pos_ra))*130) y1_l = y1_l-abs(math.sin(math.radians(pos_ra))*130) #Orientation of line line = can_scan_1.create_line(pos,y0_l,x1_l,y1_l,fill=color_line) #Draw a line on canvas point_scan = can_scan_1.create_oval((pos+3),y0,(pos-3),y1,fill=color_oval,outline=color_oval) #Draw a arc on canvas except: pass can_tex_11=can_scan_1.create_text((27,178),text='%sm'%round((x_range/4),2),fill='#aeea00') #Create a text on canvas can_tex_12=can_scan_1.create_text((27,116),text='%sm'%round((x_range/2),2),fill='#aeea00') #Create a text on canvas can_tex_13=can_scan_1.create_text((27,54),text='%sm'%round((x_range*0.75),2),fill='#aeea00') #Create a text on canvas elif '1' in str(code_car): #Translate the code to text l_ip.config(text='Moving Forward') #Put the text on the label elif '2' in str(code_car): #Translate the code to text l_ip.config(text='Moving Backward') #Put the text on the label elif '3' in str(code_car): #Translate the code to text l_ip.config(text='Turning Left') #Put the text on the label elif '4' in str(code_car): #Translate the code to text l_ip.config(text='Turning Right') #Put the text on the label elif '5' in str(code_car): #Translate the code to text l_ip.config(text='Look Up') #Put the text on the label elif '6' in str(code_car): #Translate the code to text l_ip.config(text='Look Down') #Put the text on the label elif '7' in str(code_car): #Translate the code to text l_ip.config(text='Look Left') #Put the text on the label elif '8' in str(code_car): #Translate the code to text l_ip.config(text='Look Right') #Put the text on the label elif '9' in str(code_car): #Translate the code to text l_ip.config(text='Stop') #Put the text on the label elif '0' in str(code_car): #Translate the code to text l_ip.config(text='Follow Mode On') #Put the text on the label Btn5.config(text='Following',fg='#0277BD',bg='#BBDEFB') auto_status = 1 elif 'findline' in str(code_car): #Translate the code to text BtnFL.config(text='Finding',fg='#0277BD',bg='#BBDEFB') l_ip.config(text='Find Line') findline_status = 1 elif 'lightsON' in str(code_car): #Translate the code to text BtnLED.config(text='Lights ON',fg='#0277BD',bg='#BBDEFB') led_status=1 l_ip.config(text='Lights On') #Put the text on the label elif 'lightsOFF' in str(code_car): #Translate the code to text BtnLED.config(text='Lights OFF',fg=color_text,bg=color_btn) led_status=0 l_ip.config(text='Lights OFF') #Put the text on the label elif 'oncvon' in str(code_car): if TestMode == 0: BtnOCV.config(text='OpenCV ON',fg='#0277BD',bg='#BBDEFB') BtnFL.config(text='Find Line',fg=color_text,bg=color_btn) l_ip.config(text='OpenCV ON') opencv_status = 1 elif 'auto_status_off' in str(code_car): if TestMode == 0: BtnSR3.config(fg=color_text,bg=color_btn,state='normal') BtnOCV.config(text='OpenCV',fg=color_text,bg=color_btn,state='normal') BtnFL.config(text='Find Line',fg=color_text,bg=color_btn) Btn5.config(text='Follow',fg=color_text,bg=color_btn,state='normal') findline_status = 0 speech_status = 0 opencv_status = 0 auto_status = 0 elif 'voice_3' in str(code_car): BtnSR3.config(fg='#0277BD',bg='#BBDEFB') #BtnSR1.config(state='disabled') #BtnSR2.config(state='disabled') l_ip.config(text='Sphinx SR') #Put the text on the label speech_status = 1 elif 'TestVersion' in str(code_car): TestMode = 1 BtnSR3.config(fg='#FFFFFF',bg='#F44336') BtnOCV.config(fg='#FFFFFF',bg='#F44336') s1 = tk.Scale(root,label=" < Slow Speed Adjustment Fast >", from_=0.4,to=1,orient=tk.HORIZONTAL,length=400, showvalue=0.1,tickinterval=0.1,resolution=0.2,variable=var_spd,fg=color_text,bg=color_bg,highlightthickness=0) s1.place(x=200,y=100) #Define a Scale and put it in position s3 = tk.Scale(root,label="< Near Scan Range Adjustment(Meter(s)) Far >", from_=1,to=5,orient=tk.HORIZONTAL,length=300, showvalue=1,tickinterval=1,resolution=1,variable=var_x_scan,fg=color_text,bg=color_bg,highlightthickness=0) s3.place(x=30,y=320) l_ip=tk.Label(root,width=18,text='Status',fg=color_text,bg=color_btn) l_ip.place(x=30,y=110) #Define a Label and put it in position l_ip_2=tk.Label(root,width=18,text='Speed:%s'%(var_spd.get()),fg=color_text,bg=color_btn) l_ip_2.place(x=30,y=145) #Define a Label and put it in position l_ip_4=tk.Label(root,width=18,text='Disconnected',fg=color_text,bg='#F44336') l_ip_4.place(x=637,y=110) #Define a Label and put it in position l_ip_5=tk.Label(root,width=18,text='Use default IP',fg=color_text,bg=color_btn) l_ip_5.place(x=637,y=145) #Define a Label and put it in position l_inter=tk.Label(root,width=45,text='< Car Adjustment Camera Adjustment>\nW:Move Forward Look Up:I\nS:Move Backward Look Down:K\nA:Turn Left Turn Left:J\nD:Turn Right Turn Right:L\nZ:Auto Mode On Look Forward:H\nC:Auto Mode Off Ultrasdonic Scan:X' , fg='#212121',bg='#90a4ae') l_inter.place(x=240,y=180) #Define a Label and put it in position E1 = tk.Entry(root,show=None,width=16,bg="#37474F",fg='#eceff1') E1.place(x=170,y=40) #Define a Entry and put it in position l_ip_3=tk.Label(root,width=10,text='IP Address:',fg=color_text,bg='#000000') l_ip_3.place(x=165,y=15) #Define a Label and put it in position Btn14= tk.Button(root, width=8, text='Connect',fg=color_text,bg=color_btn,command=connect_2,relief='ridge') Btn14.place(x=300,y=35) #Define a Button and put it in position BtnVIN = tk.Button(root, width=15, text='Voice Input',fg=color_text,bg=color_btn,relief='ridge') BtnVIN.place(x=30,y=495) l_VIN=tk.Label(root,width=16,text='Voice commands',fg=color_text,bg=color_btn) l_VIN.place(x=30,y=465) #Define buttons and put these in position Btn0 = tk.Button(root, width=8, text='Forward',fg=color_text,bg=color_btn,relief='ridge') Btn1 = tk.Button(root, width=8, text='Backward',fg=color_text,bg=color_btn,relief='ridge') Btn2 = tk.Button(root, width=8, text='Left',fg=color_text,bg=color_btn,relief='ridge') Btn3 = tk.Button(root, width=8, text='Right',fg=color_text,bg=color_btn,relief='ridge') Btn4 = tk.Button(root, width=8, text='Stop',fg=color_text,bg=color_btn,relief='ridge') Btn5 = tk.Button(root, width=8, text='Follow',fg=color_text,bg=color_btn,relief='ridge') Btn6 = tk.Button(root, width=8, text='Left',fg=color_text,bg=color_btn,relief='ridge') Btn7 = tk.Button(root, width=8, text='Right',fg=color_text,bg=color_btn,relief='ridge') Btn8 = tk.Button(root, width=8, text='Down',fg=color_text,bg=color_btn,relief='ridge') Btn9 = tk.Button(root, width=8, text='Up',fg=color_text,bg=color_btn,relief='ridge') Btn10 = tk.Button(root, width=8, text='Home',fg=color_text,bg=color_btn,relief='ridge') Btn11 = tk.Button(root, width=8, text='Exit',fg=color_text,bg=color_btn,relief='ridge') Btn12 = tk.Button(root, width=8, text='Set',command=spd_set,fg=color_text,bg=color_btn,relief='ridge') Btn13 = tk.Button(root, width=8,height=3, text='Scan',fg=color_text,bg=color_btn,relief='ridge') Btn0.place(x=100,y=195) Btn1.place(x=100,y=230) Btn2.place(x=30,y=230) Btn3.place(x=170,y=230) Btn4.place(x=170,y=275) Btn5.place(x=30,y=275) Btn6.place(x=565,y=230) Btn7.place(x=705,y=230) Btn8.place(x=635,y=265) Btn9.place(x=635,y=195) Btn10.place(x=635,y=230) Btn11.place(x=705,y=10) Btn12.place(x=535,y=107) Btn13.place(x=350,y=330) # Bind the buttons with the corresponding callback function Btn0.bind('<ButtonPress-1>', call_forward) Btn1.bind('<ButtonPress-1>', call_back) Btn2.bind('<ButtonPress-1>', click_call_Left) Btn3.bind('<ButtonPress-1>', click_call_Right) Btn4.bind('<ButtonPress-1>', call_Stop) Btn5.bind('<ButtonPress-1>', call_auto) Btn6.bind('<ButtonPress-1>', call_look_left) Btn7.bind('<ButtonPress-1>', call_look_right) Btn8.bind('<ButtonPress-1>', call_look_down) Btn9.bind('<ButtonPress-1>', call_look_up) Btn10.bind('<ButtonPress-1>', call_ahead) Btn11.bind('<ButtonPress-1>', call_exit) Btn13.bind('<ButtonPress-1>', scan) Btn0.bind('<ButtonRelease-1>', call_stop) Btn1.bind('<ButtonRelease-1>', call_stop) Btn2.bind('<ButtonRelease-1>', call_stop) Btn3.bind('<ButtonRelease-1>', call_stop) Btn4.bind('<ButtonRelease-1>', call_stop) BtnC1.bind('<ButtonPress-1>', EC1_set) BtnC2.bind('<ButtonPress-1>', EC2_set) BtnM1.bind('<ButtonPress-1>', EM1_set) BtnM2.bind('<ButtonPress-1>', EM2_set) BtnT1.bind('<ButtonPress-1>', ET1_set) BtnT2.bind('<ButtonPress-1>', ET2_set) BtnFL.bind('<ButtonPress-1>', find_line) BtnVIN.bind('<ButtonPress-1>', voice_command) BtnLED.bind('<ButtonPress-1>', lights_ON) # Bind the keys with the corresponding callback function root.bind('<KeyPress-w>', call_forward) root.bind('<KeyPress-a>', call_Left) root.bind('<KeyPress-d>', call_Right) root.bind('<KeyPress-s>', call_back) # When these keys is released,call the function call_stop() root.bind('<KeyRelease-w>', call_stop) root.bind('<KeyRelease-a>', call_stop_2) root.bind('<KeyRelease-d>', call_stop_2) root.bind('<KeyRelease-s>', call_stop) root.bind('<KeyRelease-f>', lights_ON) root.bind('<KeyRelease-e>', find_line) root.bind('<KeyRelease-q>', voice_command) # Press these keyss to call the corresponding function() root.bind('<KeyPress-c>', call_Stop) root.bind('<KeyPress-z>', call_auto) root.bind('<KeyPress-j>', call_look_left) root.bind('<KeyPress-l>', call_look_right) root.bind('<KeyPress-h>', call_ahead) root.bind('<KeyPress-k>', call_look_down) root.bind('<KeyPress-i>', call_look_up) root.bind('<KeyPress-x>', scan) root.bind('<Return>', connect) root.bind('<Shift_L>',call_stop) global stat if stat==0: # Ensure the mainloop runs only once root.mainloop() # Run the mainloop() stat=1 # Change the value to '1' so the mainloop() would not run again.
import tkinter as tk window = tk.Tk() f = tk.Frame(bg="navy") f.pack() press = tk.PhotoImage(file="CFinger.png") img = tk.Label(master=window,image=press) img.pack(side=tk.BOTTOM) lbl=tk.Label(master = f,text="How Fast can you click?",bg="navy",fg="white",width=34) lbl.pack() lbl=tk.Label(master = f,text="Click the button and see the indicator.",bg="navy",fg="white",width=34) lbl.pack() x = 0 def onClick (event): global x x = x+1 lbl.config(text=x) Btn=tk.Button(width=20,text="Click me!") Btn.pack() Btn.bind("<Button-1>",onClick) lbl=tk.Label(master = f,text= (x),bg="orange") lbl.pack()
def widgets(self): self.road = tk.PhotoImage(file='images/'+self.road_name+'.gif') self.road_height = self.road.height() self.road_width = self.road.width() self.side_ground = tk.PhotoImage(file='images/'+self.side_ground_name+'.gif') self.side_ground_height = self.side_ground.height() self.side_ground_width = self.side_ground.width() self.car_height = self.car.height() self.car_width = self.car.width() self.bag=tk.PhotoImage(file='images/bag.gif') self.bag_height = self.bag.height() self.bag_width = self.bag.width() self.pump = tk.PhotoImage(file='images/pump.gif') self.pump_height = self.pump.height() self.pump_width = self.pump.width() self.theroad1 = self.canvas.create_image(self.side_ground_width, 0, image=self.road, anchor='nw') self.theroad2 = self.canvas.create_image(self.side_ground_width,self.road_height , image=self.road, anchor='nw') self.theside_ground1 = self.canvas.create_image(0, 0, image=self.side_ground, anchor='nw') self.theside_ground2 = self.canvas.create_image(0,self.side_ground_height , image=self.side_ground, anchor='nw') self.theside_ground3 = self.canvas.create_image(self.side_ground_width+self.road_width,0 ,image=self.side_ground, anchor='nw') self.theside_ground4 = self.canvas.create_image( self.side_ground_width+self.road_width,self.side_ground_height, image=self.side_ground, anchor='nw') self.thebag=self.canvas.create_image(int(self.canvas['width']), int(self.canvas['height']), image=self.bag, anchor='se') self.thepump = self.canvas.create_image(int(self.canvas['width']), int(self.canvas['height'])-self.bag_height, image=self.pump,anchor='se') self.thecar = self.canvas.create_image(self.side_ground_width+self.road_width/2+130, int(self.canvas['height'])- self.car_height-20,image=self.car, anchor='nw') self.f1 = tk.Frame(self.canvas) self.save = tk.PhotoImage(file='images/save.gif') self.button_save_score = tk.Button(self.f1,image=self.save,command=self.save_score) self.button_save_score.pack(side='left', fill='both', expand=1) self.button_save_score.config(state="disable") self.button_pause = tk.Button(self.f1, text='| |', font="Arial 20", command=self.pause,width=3) self.button_pause.pack(side='left', fill='y', expand=0) self.button_pause.config(state="disable") self.canvas.create_window(0,0, window=self.f1, anchor="nw") self.stars=Star(self.canvas,self.thecar,self.road_width,self.side_ground_width) self.fuels=Fuel(self.canvas,self.thecar,self.road_width,self.side_ground_width) if self.level == 2 or self.level == 3: self.tool = tk.PhotoImage(file='images/tool.gif') self.thetool = self.canvas.create_image(int(self.canvas['width']),int(self.canvas['height'])-self.bag_height -self.pump_height-10,image=self.tool, anchor='se') self.rocks = Rock(self.root,self.canvas, self.thecar, self.road_width, self.side_ground_width) self.rocks.show_damage() if self.level==3: self.tire=tk.PhotoImage(file='images/tire.gif') self.thetire = self.canvas.create_image(int(self.canvas['width'])-5,int(self.canvas['height']) - self.bag_height - self.pump_height - self.tool.height()-15, image=self.tire, anchor='se') self.glasses = Glass(self,self.root, self.canvas, self.thecar, self.road_width, self.side_ground_width) self.glasses.show_tires() self.show_time() self.show_username() self.stars.show_points() self.fuels.show_fuel() self.my_message = self.canvas.create_text(int(self.canvas['width']) / 2, int(self.canvas['height']) / 2, fill="black", text="", font="Arial 45", anchor='nw') self.canvas.update() if speaker:sound.PlaySound("countdown", sound.SND_ASYNC ) time.sleep(1) self.count_down(3) self.start_game()
#________________________________ Main Menu ______________________________ # Creating main menu object.... main_menu = tk.Menu() # .... File Menu STARTS .... # Creating file menu object..... file_menu = tk.Menu(main_menu, tearoff=False) # File menu icons # Setting all the icons for file menu.... new_icon = tk.PhotoImage(file="icons/new.png") open_icon = tk.PhotoImage(file="icons/open.png") save_icon = tk.PhotoImage(file="icons/save.png") save_as_icon = tk.PhotoImage(file="icons/save_as.png") exit_icon = tk.PhotoImage(file="icons/exit.png") # .... File Menu ENDS .... # ... Edit Menu STARTS ... # Creating object for the edit menu... edit_menu = tk.Menu(main_menu, tearoff=False) # Edit Menu Icons... copy_icon = tk.PhotoImage(file="icons/copy.png")
def set_icon(self): icon = tk.PhotoImage(data=self.engine.get_icon("app")) self.call("wm", "iconphoto", self._w, "-default", icon)
def __init__(self, master,parent): """ Constructor for intialization of this page """ pages.page.Page.__init__(self,master) self.parent=parent #Top row for Custom Variable selection self.varsVar=tk.StringVar(self) self.varsVar.trace("w",self._varsVarSelectionChanged) self.cBoxVars=tk.OptionMenu(self, self.varsVar, *parent.getCustomvarsString()) self.cBoxVars.pack(side="top", expand="true") #Stack panels for individual rows self.customFrame1=tk.Frame(self) self.customFrame1.pack(side="top",expand="true") self.customFrame2=tk.Frame(self) self.customFrame2.pack(side="top",expand="true") self.customFrame3=tk.Frame(self) self.customFrame3.pack(side="top",expand="true") self.customFrame4=tk.Frame(self) self.customFrame4.pack(side="top",expand="true") self.customFrame5=tk.Frame(self) self.customFrame5.pack(side="top",expand="true") self.customFrame6=tk.Frame(self) self.customFrame6.pack(side="top",expand="true") self.customFrame7=tk.Frame(self) self.customFrame7.pack(side="top",expand="true") self.customFrame8=tk.Frame(self) self.customFrame8.pack(side="top",expand="true") self.customFrame9=tk.Frame(self) self.customFrame9.pack(side="top",expand="true") self.customFrame10=tk.Frame(self) self.customFrame10.pack(side="top",expand="true") #Buttons Images self.imgAddColumn=tk.PhotoImage(file="images/btnAddColumns.gif") self.imgFillMean=tk.PhotoImage(file="images/btnFillMissingWithMean.gif") self.imgFillMedian=tk.PhotoImage(file="images/btnFillMissingWithMedian.gif") self.imgFillMeanGrouped=tk.PhotoImage(file="images/btnFillMissingWithMeanGrouped.gif") self.imgFillMedianGrouped=tk.PhotoImage(file="images/btnFillMissingWithMedianGrouped.gif") self.imgLogTransform=tk.PhotoImage(file="images/btnLogTransform.gif") #Row: Add Columns self.varAddColumn1=tk.StringVar(self.customFrame1) self.cBoxAddColumn1=tk.OptionMenu(self.customFrame1, self.varAddColumn1, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxAddColumn1.pack(side="left", expand="true") self.varAddColumn2=tk.StringVar(self.customFrame1) self.cBoxAddColumn2=tk.OptionMenu(self.customFrame1, self.varAddColumn2, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxAddColumn2.pack(side="left", expand="true") self.varAddColumnOut=tk.StringVar(self.customFrame1) self.txtAddColumnOut=tk.Entry(self.customFrame1,textvariable=self.varAddColumnOut) self.txtAddColumnOut.pack(side="left") self.btnAddColumn=tk.Button(self.customFrame1,text="Add Column",command=self._btnAddColumnClicked, image=self.imgAddColumn) self.btnAddColumn.pack(side="left") #Row: Fill Missing With Mean self.varFillMean=tk.StringVar(self.customFrame2) self.cBoxFillMean=tk.OptionMenu(self.customFrame2, self.varFillMean, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxFillMean.pack(side="left", expand="true") self.btnFillMean=tk.Button(self.customFrame2,text="Fill Missing With Mean",command=self._btnFillMeanClicked, image=self.imgFillMean) self.btnFillMean.pack(side="left") #Row: Fill Missing With Median self.varFillMedian=tk.StringVar(self.customFrame3) self.cBoxFillMedian=tk.OptionMenu(self.customFrame3, self.varFillMedian, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxFillMedian.pack(side="left", expand="true") self.btnFillMedian=tk.Button(self.customFrame3,text="Fill Missing With Median",command=self._btnFillMedianClicked, image=self.imgFillMedian) self.btnFillMedian.pack(side="left") #Row: Fill Missing With Mean Grouped and Fill Missing With Median Grouped self.varFillMeanGroup=tk.StringVar(self.customFrame4) self.cBoxFillMeanGroup=tk.OptionMenu(self.customFrame4, self.varFillMeanGroup, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxFillMeanGroup.pack(side="left", expand="true") columns=parent.getColumns(parent.getVarValue(self.varsVar.get())) self.lstFillMeanIndex=tk.Listbox(self.customFrame4, selectmode=tk.MULTIPLE,exportselection=0) for column in columns: self.lstFillMeanIndex.insert(tk.END, column) self.lstFillMeanIndex.pack(side="left") self.lstFillMeanCol=tk.Listbox(self.customFrame4, selectmode=tk.MULTIPLE,exportselection=0) for column in columns: self.lstFillMeanCol.insert(tk.END, column) self.lstFillMeanCol.pack(side="left") self.btnFillMeanGroup=tk.Button(self.customFrame4,text="Fill Missing With Mean Grouped",command=self._btnFillMeanGroupClicked, image=self.imgFillMeanGrouped) self.btnFillMeanGroup.pack(side="left") self.btnFillMedianGroup=tk.Button(self.customFrame4,text="Fill Missing With Median Grouped",command=self._btnFillMedianGroupClicked, image=self.imgFillMedianGrouped) self.btnFillMedianGroup.pack(side="top") #Row: Log Transform self.varLogColumn=tk.StringVar(self.customFrame5) self.cBoxLogColumn=tk.OptionMenu(self.customFrame5, self.varLogColumn, *parent.getColumns(parent.getVarValue(self.varsVar.get()))) self.cBoxLogColumn.pack(side="left", expand="true") self.varLogColumnOut=tk.StringVar(self.customFrame5) self.txtLogColumnOut=tk.Entry(self.customFrame5,textvariable=self.varLogColumnOut) self.txtLogColumnOut.pack(side="left") self.btnLogColumn=tk.Button(self.customFrame5,text="Log Transform",command=self._btnLogColumnClicked, image=self.imgLogTransform) self.btnLogColumn.pack(side="left") #Impute #tk.Label(self.customFrame6,text="Fit Model: ").pack(side="left") #self.varFitModel=tk.StringVar(self.customFrame6) #self.cBoxFitModel=tk.OptionMenu(self.customFrame6, self.varFitModel, *parent.getCustomvarsString()) #self.cBoxFitModel.pack(side="left", expand="true") #tk.Label(self.customFrame6,text="Strategy: ").pack(side="left") #self.varImputeStrategy=tk.StringVar(self.customFrame6) #options=['mean','median'] #self.cBoxImputeStrategy=tk.OptionMenu(self.customFrame6, self.varImputeStrategy, *options) #self.cBoxImputeStrategy.pack(side="left", expand="true") #self.btnImpute=tk.Button(self.customFrame6,text="Impute",command=self._btnImputeClicked) #self.btnImpute.pack(side="left") #Multi Impute #tk.Label(self.customFrame7,text="Fit Model: ").pack(side="left") #self.varMFitModel=tk.StringVar(self.customFrame7) #self.cBoxMFitModel=tk.OptionMenu(self.customFrame7, self.varMFitModel, *parent.getCustomvarsString()) #self.cBoxMFitModel.pack(side="left", expand="true") #tk.Label(self.customFrame7,text="Imputation Order: ").pack(side="left") #self.varMImputeOrder=tk.StringVar(self.customFrame7) #options=['ascending'] #self.cBoxMImputeOrder=tk.OptionMenu(self.customFrame7, self.varMImputeOrder, *options) #self.cBoxMImputeOrder.pack(side="left", expand="true") #tk.Label(self.customFrame7,text="Strategy: ").pack(side="left") #self.varMImputeStrategy=tk.StringVar(self.customFrame7) #options=['mean','median'] #self.cBoxMImputeStrategy=tk.OptionMenu(self.customFrame7, self.varMImputeStrategy, *options) #self.cBoxMImputeStrategy.pack(side="left", expand="true") #Multi Impute Row 2 #tk.Label(self.customFrame8,text="Burn In: ").pack(side="left") #self.varBurnIn=tk.StringVar(self.customFrame8) #self.varBurnIn.set(10) #self.txtBurnIn=tk.Spinbox(self.customFrame8, from_ = 1, to = 300,textvariable=self.varBurnIn) #self.txtBurnIn.pack(side="left") #tk.Label(self.customFrame8,text="Imputations: ").pack(side="left") #self.varImputations=tk.StringVar(self.customFrame8) #self.varImputations.set(10) #self.txtImputations=tk.Spinbox(self.customFrame8, from_ = 1, to = 300,textvariable=self.varImputations) #self.txtImputations.pack(side="left") #tk.Label(self.customFrame8,text="Nearest Features: ").pack(side="left") #self.varNFeatures=tk.StringVar(self.customFrame8) #self.txtNFeatures=tk.Spinbox(self.customFrame8, from_ = 1, to = 300,textvariable=self.varNFeatures) #self.txtNFeatures.pack(side="left") #Multi Impute Row 3 #self.btnMImpute=tk.Button(self.customFrame9,text="Multi Impute",command=self._btnMImputeClicked) #self.btnMImpute.pack(side="left") #Row: Output Console self.txtOutput=tk.Text(self.customFrame10) self.txtOutput.config(font=("consolas",8),bg='green',wrap="none") self.txtOutput.pack(side="top") self.sbTxtOutputY=tk.Scrollbar(self.customFrame10,command=self.txtOutput.yview) self.txtOutput['yscrollcommand']=self.sbTxtOutputY.set self.sbTxtOutputY.pack(side="left", expand=True,fill="y") self.sbTxtOutputX=tk.Scrollbar(self.customFrame10,command=self.txtOutput.xview) self.txtOutput['xscrollcommand']=self.sbTxtOutputX.set self.sbTxtOutputX.pack(side="top", expand=True,fill="x")
global display calc_num = calc_num.replace("×", "*") calc_num = calc_num.replace("÷", "/") if process_permutation_combination() and calc_num != "" and valid_calc( calc_num): try: display = str(round(eval(calc_num), 6)) except: display = "Invalid Syntax... Please Try Again" text.set(display) display = "" calc_num = "" # CREATE FRAMES background_image = tk.PhotoImage(file="blue_background.png") background_label = tk.Label(root, image=background_image) background_label.place(relwidth=1, relheight=1) high_frame = tk.Frame(root, bg="red", bd=3) high_frame.place(relx=0.5, rely=0.05, relwidth=0.8, relheight=0.15, anchor="n") low_frame = tk.Frame(root, bg="green", bd=5) low_frame.place(relx=0.5, rely=0.25, relwidth=0.8, relheight=0.7, anchor="n") # CREATE HIGH_FRAME text_box = tk.Label(high_frame, textvariable=text, font=("arial", 20, "bold")) text_box.place(relwidth=1, relheight=1) # CREATE LOW_FRAME BUTTONS button_fact = tk.Button(low_frame, text="!", command=lambda: btn_factorial()) button_fact.place(relx=0, rely=0, relwidth=0.25, relheight=0.2)
# move an Image on the canvas with tkinter import tkinter as tk # Create the window with the Tk class root = tk.Tk() # Create the canvas and make it visible with pack() canvas = tk.Canvas(root, width=800, height=800) canvas.pack() # this makes it visible # Loads and create image (put the image in the folder) img = tk.PhotoImage(file="mega.png") image = canvas.create_image(10, 10, anchor=tk.NW, image=img) def move(event): """Move the sprite image with a d w and s when click them""" if event.char == "a": canvas.move(image, -10, 0) elif event.char == "d": canvas.move(image, 10, 0) elif event.char == "w": canvas.move(image, 0, -10) elif event.char == "s": canvas.move(image, 0, 10) # This bind window to keys so that move is called when you press a key root.bind("<Key>", move)
def AboutMsg(self): global version self.aTop = tk.Toplevel() self.aTop.resizable(0, 0) noteb = ttk.Notebook(self.aTop, padding=(5, 1, 5, 5)) notebTab1 = ttk.Frame(noteb) notebTab2 = ttk.Frame(noteb) noteb.add(notebTab1, text='About') noteb.add(notebTab2, text='Description') noteb.pack(fill='both') # ABOUT tab aLabel = tk.Label(notebTab1, pady=10, text=f"\n\npCalc", font=("Biome 20 bold")) aLabel.pack(fill='both') aLabel = tk.Label(notebTab1, pady=10, text=f"version: {version}\n", font=("Biome 16")) aLabel.pack(fill='both') aBut = ttk.Button(notebTab1, text="Close", command=self.aTop.destroy) aBut.pack(side='bottom', pady=10) self.img_author = tk.PhotoImage(file="img/programoteq.100.png") self.img_Label = tk.Label(notebTab1, image=self.img_author) self.img_Label.pack(side='bottom', padx=2, pady=20) # DESCRIPTION tab textbox = tk.Text(notebTab2, width=70, height=28, font=("Biome 10"), wrap='word', bg='grey95', padx=5, pady=5) textbox.pack() # Section 1 textbox.insert(tk.END, "\nMain functions: ", ("h1")) textbox.insert(tk.END, "\n\n - Natural Order of Opeartions:", ("h2")) textbox.insert( tk.END, ''' Calculations can be input in the same form as they are written, the priority sequence of the input calculation will be \ evaluated automatically according to the operator precedence, eg. 1 + 2 x 3 = 7. ''') textbox.insert(tk.END, " - Equation Input Control Rules:", ("h2")) textbox.insert( tk.END, ''' advanced supervision mechanism introduced in order to minimize number of syntax errors. ''') textbox.insert(tk.END, " - Answer Memory (Ans):", ("h2")) textbox.insert( tk.END, ''' the last calculation result obtained is stored in Ans (answer) memory. You can scroll back through all the previous calculation \ results' by pressing Ans key. ''') textbox.insert(tk.END, " - Calculation Precision Setup:", ("h2")) textbox.insert( tk.END, ''' The value you specify (from 1 to 5 or FULL) controls the number of decimal places for displayed calculation results. Calculation results are rounded off to the specified digit before being \ displayed. ''') textbox.insert(tk.END, " - Engineering notation", ("h2")) textbox.insert(tk.END, ''', eg. 1.2 e+3 = 1.2 x 10^3 = 1200. ''') # Section 2 textbox.insert(tk.END, "Available operators: ", ("h1")) textbox.insert(tk.END, "\n\n - basic arithmetic opertors:", ("h2")) textbox.insert( tk.END, ''' addition, subtraction, multiplication and division ''') textbox.insert(tk.END, " - floor division operator", ("h2")) textbox.insert( tk.END, ''' (integral part of the division), eg. 5 // 3 = 1 ''') textbox.insert(tk.END, " - modulus opeartor", ("h2")) textbox.insert(tk.END, ''' (remainder of the division), eg. 5 mod 3 = 2 ''') textbox.insert(tk.END, " - exponenet operator", ("h2")) textbox.insert( tk.END, ''' (raises the left operand to the power of the right), eg. 2 ^ 3 = 8 ''') textbox.insert(tk.END, " - roots:", ("h2")) textbox.insert( tk.END, ''' available using exponent operator, as 1/n exponent is equal to n-th root of the number, eg. 8 ^ (1/3) = 2 ''') textbox.insert(tk.END, " - use of parenthesis:", ("h2")) textbox.insert( tk.END, ''' please note that input of the closing parenthesis is required ''') textbox.insert(tk.END, " - Pi number:", ("h2")) textbox.insert(tk.END, ''' being equal to 3.141592653 ''') textbox.tag_config("h1", font=("Biome 13 bold")) textbox.tag_config("h2", font=("Tahoma 10 bold")) textbox.config(state='disabled') aBut = ttk.Button(notebTab2, text="Close", command=self.aTop.destroy) aBut.pack(side='bottom', pady=10)
import tkinter as tk import requests import random root = tk.Tk() HEIGHT = 700 WIDTH = 800 canvas = tk.Canvas(root, height=HEIGHT, width=WIDTH, bg="#b5d6b2") canvas.pack() frame = tk.Frame(root, bg="#b5d6b2") frame.place(relwidth=1, relheight=1) comb = tk.PhotoImage(file="comb.png", height=400) comb1 = tk.Label(frame, image=comb, bg="#b5d6b2") comb1.place(relx=0.2, rely=0, relwidth=0.6, relheight=0.6) text = tk.PhotoImage(file="text.png") text1 = tk.Label(frame, image=text, bg="#b5d6b2", height=100, width=500) text1.place(relx=0.3, rely=0.3, relwidth=0.4, relheight=0.4) #var = tk.StringVar() #welcomeMessage = tk.Message(frame, textvariable=var, bg="#b5d6b2", width=500, font="oemfixed") #var.set("So, you want to practice your times table up to 12... In that case, I have prepared for you, an extremely stressful, super cool, challenging, impossible exam. Press start if you think you have a slight chance of passing. ") #welcomeMessage.place(relx=0.4) #QuestionOne = tk.Entry(root) #QuestionOne.pack()
root = tkinter.Tk() root.title("Paint labyrinth") root.bind("<KeyPress>", key_down) root.bind("<KeyRelease>", key_up) canvas = tkinter.Canvas(width=800, height=560, bg="white") canvas.pack() meiro = [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 0, 0, 0, 0, 0, 1, 0, 0, 1], [1, 0, 1, 1, 0, 0, 1, 0, 0, 1], [1, 0, 0, 1, 0, 0, 0, 0, 0, 1], [1, 0, 0, 1, 1, 1, 1, 1, 0, 1], [1, 0, 0, 0, 0, 0, 0, 0, 0, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] for y in range(7): for x in range(10): if meiro[y][x] == 1: canvas.create_rectangle(x * 80, y * 80, x * 80 + 79, y * 80 + 79, fill="skyblue", width=0) img = tkinter.PhotoImage(file="images/mimi_s.png") canvas.create_image(mx * 80 + 40, my * 80 + 40, image=img, tag="MYCHAR") main_proc() root.mainloop()