def __init__(self,nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.levelCut = 30
#self.frame2 = ttk.Frame(self.nb)
self.nb.add(self.frame, text=' Material ')
r = 0
tk.Button(self.frame, text = 'Upload saved material', command=self.app.uploadMaterial, width = 25).grid(column=0, row=r, pady=10)
r += 1
tk.Button(self.frame, text = 'Save current material', command=self.app.saveMaterial, width = 25).grid(column=0, row=r, pady=10)
r += 1
tk.Label(self.frame, text="Material (name)").grid(column=0, row=r, pady=(20,2) )
r += 1
tk.Entry(self.frame, textvariable=self.app.mName , width='50').grid(column=0, columnspan=2 , row=r , padx=1,pady=(1,10), sticky=W)
r += 1
tk.Label(self.frame, text="High speed for this material (mm/sec)").grid(column=0, row=r, pady=(20,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mSpeedHigh , width='6').grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
EntryFloat(self.frame, self.app.mSpeedHigh , 1 , 50, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Heating at high speed (%)").grid(column=0, row=r, pady=(10,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mHeatSpHigh , width='6').grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
EntryFloat(self.frame, self.app.mHeatSpHigh , 1 , 100, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Radiance at high speed (mm)").grid(column=0, row=r, pady=(10,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mRadSpHigh , width='6').grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
EntryFloat(self.frame, self.app.mRadSpHigh , 0.1 , 3, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
r += 1
tk.Label(self.frame, text="Low speed (mm/sec)").grid(column=0, row=r, pady=(20,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mSpeedLow , width='6').grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
EntryFloat(self.frame, self.app.mSpeedLow , 1 , 50, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Heating at low speed (%)").grid(column=0, row=r, pady=(10,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mHeatSpLow , width='6').grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
EntryFloat(self.frame, self.app.mHeatSpLow , 1 , 100, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(10,1), sticky=W)
r += 1
tk.Label(self.frame, text="Half speed (= high/2) ").grid(column=0, row=r, pady=(20,2), sticky=W)
tk.Entry(self.frame, textvariable=self.app.mSpeedHalf , width='6', state='disabled').grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Radiance at high speed / 2 (mm)").grid(column=0, row=r, pady=(20,2), sticky=W)
#tk.Entry(self.frame, textvariable=self.app.mRadSpHalf , width='6').grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
EntryFloat(self.frame, self.app.mRadSpHalf , 0.1 , 3, self.levelCut , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.frame, text="Usual cutting speed (mm/sec)").grid(column=0, row=r, pady=(20,1), sticky=W)
EntryFloat(self.frame, self.app.vCut, 0.1, 10, self.levelCut , width='6').grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
def __init__(self, nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.levelCut = 30
#self.frame2 = ttk.Frame(self.nb)
self.nb.add(self.frame, text=' Cut ')
self.lastGcodeFileName = ""
r = 0
self.cutBtn = tk.Button(self.frame,
text='Cut',
width=25,
command=self.cut,
state='disabled')
self.cutBtn.grid(column=0, row=r, padx=1, pady=(20, 1))
r += 1
self.cancelBtn = tk.Button(self.frame,
text='Cancel',
command=self.app.tGrbl.resetGrbl,
width=25,
state='disabled')
self.cancelBtn.grid(column=0,
columnspan=2,
row=r,
pady=(10, 1),
sticky=W)
r += 1
self.button2 = tk.Button(self.frame,
text='Save Gcode',
width=25,
command=self.saveGcode)
self.button2.grid(column=0, row=r, padx=1, pady=(20, 1))
r += 1
tk.Label(self.frame,
text="Usual cutting speed (mm/sec)").grid(column=0,
row=r,
pady=(20, 1),
sticky=W)
EntryFloat(self.frame,
self.app.vCut,
0.1,
10,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(20, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Errors").grid(column=0,
row=r,
pady=(20, 1),
padx=(10, 1),
sticky=W)
r += 1
tk.Label(self.frame, textvariable=self.app.cutMsg,
height=10).grid(column=0,
columnspan=2,
row=r,
pady=(1, 1),
padx=(10, 1),
sticky=NW)
self.figRoot = Figure(figsize=(10, 3), dpi=100)
self.axesRoot = self.figRoot.add_subplot(1, 1, 1)
self.axesRoot.autoscale(enable=False)
self.axesRoot.set_xlim(0, 1300)
self.axesRoot.set_ybound(0, 400)
self.axesRoot.set_title('Root')
self.lineRoot1, = self.axesRoot.plot([], [])
self.lineRoot2, = self.axesRoot.plot([], [])
self.canvasRoot = FigureCanvasTkAgg(
self.figRoot, master=self.frame) # A tk.DrawingArea.
self.canvasRoot.draw()
self.canvasRoot.get_tk_widget().grid(column=2,
row=0,
rowspan=20,
padx=10,
pady=(10, 2))
self.figTip = Figure(figsize=(10, 3), dpi=100)
self.axesTip = self.figTip.add_subplot(1, 1, 1)
self.axesTip.autoscale(enable=False)
self.axesTip.set_xlim(0, 1300)
self.axesTip.set_ybound(0, 400)
self.axesTip.set_title('Tip')
self.lineTip1, = self.axesTip.plot([], [])
self.lineTip2, = self.axesTip.plot([], [])
self.canvasTip = FigureCanvasTkAgg(
self.figTip, master=self.frame) # A tk.DrawingArea.
self.canvasTip.draw()
self.canvasTip.get_tk_widget().grid(column=2,
row=20,
rowspan=20,
padx=10,
pady=(10, 2))
def __init__(self,nb, app , queueCmd):
self.nb = nb
self.app = app
self.queueCmd = queueCmd
self.frame = ttk.Frame(self.nb)
self.levelGuillotine = 40
#self.frame2 = ttk.Frame(self.nb)
self.nb.add(self.frame, text=' Guillotine & Move ')
#self.t_frame= ttk.Frame(self.frame, highlightbackground="black" , highlightthickness=1)
self.t_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.l_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.r_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.m_frame= ttk.Frame(self.frame, relief="groove",padding=10)
#self.t_frame.pack(side = TOP)
self.l_frame.pack(side = LEFT , fill= Y)
self.r_frame.pack(side = RIGHT , fill= Y)
self.t_frame.pack(side = TOP)
self.m_frame.pack(side = TOP)
r = 0
tk.Label(self.l_frame, text="Guillotine",font=("Helvetica", 18)).grid(column=0, row=r, pady=(1,1))
r += 1
tk.Label(self.l_frame, text="Cutting speed (mm/sec)").grid(column=0, row=r, pady=(20,1), sticky=E)
EntryFloat(self.l_frame, self.app.gCuttingSpeed , 0.1 , 10, self.levelGuillotine , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Apply calculated heating").grid(column=0, row=r, pady=(20,1), sticky=E)
tk.Checkbutton(self.l_frame, variable=self.app.gApplyCalculatedHeating , text='' ,
command=self.updateGuillotineHeating).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W )
r += 1
tk.Label(self.l_frame, text="Heating (%)").grid(column=0, row=r, pady=(1,1), sticky=E)
self.gHeatingBox = EntryFloat(self.l_frame, self.app.gHeating , 0.1 , 100, self.levelGuillotine , width='6' )
self.gHeatingBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Type of guillotine").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Vertical", variable=self.app.gType, value="Vertical",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
self.gVDistBox = EntryFloat(self.l_frame, self.app.gVDist , -500 , 500, self.levelGuillotine , width='6' )
self.gVDistBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Horizontal", variable=self.app.gType, value="Horizontal",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
self.gHDistBox = EntryFloat(self.l_frame, self.app.gHDist , -500 , 500, self.levelGuillotine , width='6' , state='disabled' )
self.gHDistBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Inclined", variable=self.app.gType, value="Inclined",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Cutting while").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Going forward AND back", variable=self.app.gCuttingWhile, value="Both").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Only going forward", variable=self.app.gCuttingWhile, value="Forward").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Only going back", variable=self.app.gCuttingWhile, value="Back").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
self.goForwardBtn = tk.Button(self.l_frame, text = 'Go forward', command=self.goForward, width = 25 , state='disabled')
self.goForwardBtn.grid(column=0, columnspan=2 , row=r , padx=(10,10),pady=(10,1), sticky=W)
r += 1
self.goBackBtn = tk.Button(self.l_frame, text = 'Go back', command=self.goBackward, width = 25, state='disabled' )
self.goBackBtn.grid(column=0, columnspan=2, row=r , padx=(10,10),pady=(10,1), sticky=W)
r += 1
self.cancelBtn = tk.Button(self.l_frame, text = 'Cancel', command=self.app.tGrbl.resetGrbl, width = 25, state='disabled' )
self.cancelBtn.grid(column=0, columnspan=2, row=r , padx=(10,10),pady=(10,1), sticky=W)
r=0
tk.Label(self.t_frame, text="Grbl status").grid(column=3, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Horiz. left").grid(column=4, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Vertical left").grid(column=5, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Horiz. right").grid(column=6, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Vertical right").grid(column=7, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Speed").grid(column=8, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Heating").grid(column=9, row=r, pady=(1,1))
r += 1
grblStatusBox = tk.Entry(self.t_frame, textvariable=self.app.grblStatus , width='20',state='disabled' )
grblStatusBox.grid(column=3, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblXG , width='8',state='disabled' ).grid(column=4, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblYG , width='8',state='disabled' ).grid(column=5, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblXD , width='8',state='disabled' ).grid(column=6, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblYD , width='8',state='disabled' ).grid(column=7, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblF , width='8',state='disabled' ).grid(column=8, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblS , width='8',state='disabled' ).grid(column=9, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
#self.msgText = ""
self.msgBox = tkst.ScrolledText(self.t_frame, width=80, height=4, wrap=tk.WORD)
self.msgBox.grid(column=0, row=r , columnspan=9, padx=(1,1),pady=(10,10), sticky=W)
r += 1
self.connectBtn = tk.Button(self.t_frame, text = 'Connect to Grbl', command=self.connect, width = 25 )
self.connectBtn.grid(column=3, row=r , columnspan=3, padx=(1,1),pady=(10,10), sticky=W)
self.disconnectBtn = tk.Button(self.t_frame, text = 'Disconnect from Grbl', command=self.disconnect, width = 25 , state='disabled' )
self.disconnectBtn.grid(column=6, row=r , columnspan=3, padx=(1,1),pady=(10,10), sticky=W)
r = 0
self.resetBtn = tk.Button(self.r_frame, text = 'Reset Grbl', command=self.app.tGrbl.resetGrbl,width = 25 , state='disabled' )
self.resetBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.unlockBtn = tk.Button(self.r_frame, text = 'Unlock Grbl', command=self.app.tGrbl.unlockGrbl, width = 25, state='disabled' )
self.unlockBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.homeBtn = tk.Button(self.r_frame, text = 'Home', command=self.app.tGrbl.homeGrbl, width = 25, state='disabled' )
self.homeBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.setBtn = tk.Button(self.r_frame, text = 'Set position', command=self.app.tGrbl.setPosGrbl, width = 25, state='disabled' )
self.setBtn.grid(column=2, row=r , padx=(10,10),pady=(40,1), sticky=W)
r += 1
self.gotoBtn = tk.Button(self.r_frame, text = 'Go to position', command=self.app.tGrbl.goToPosGrbl, width = 25, state='disabled' )
self.gotoBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.startHeatingBtn = tk.Button(self.r_frame, text = 'Start heating', command=self.startHeat, width = 25, state='disabled' )
self.startHeatingBtn.grid(column=2, row=r , padx=(10,10),pady=(40,1), sticky=W)
r += 1
self.stopHeatingBtn = tk.Button(self.r_frame, text = 'Stop heating', command=self.stopHeat, width = 25, state='disabled' )
self.stopHeatingBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r=0
tk.Label(self.m_frame, text="Move",font=("Helvetica", 18)).grid(column=0, row=r, columnspan= 3, pady=(20,1))
r += 1
self.moveUpBtn = tk.Button(self.m_frame, text = 'Up', command=self.moveUp, width = 15, state='disabled' )
self.moveUpBtn.grid(column=1, row=r , padx=(10,10),pady=(20,1))
r += 1
self.moveBackBtn = tk.Button(self.m_frame, text = 'Back', command=self.moveBack, width = 15, state='disabled' )
self.moveBackBtn.grid(column=0, row=r , padx=(10,10),pady=(20,1))
EntryFloat(self.m_frame, self.app.gMoveDist , 0.1 , 500, self.levelGuillotine , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1))
self.moveForwardBtn = tk.Button(self.m_frame, text = 'Forward', command=self.moveForward, width = 15, state='disabled' )
self.moveForwardBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1))
r += 1
self.moveDownBtn = tk.Button(self.m_frame, text = 'Down', command=self.moveDown, width = 15, state='disabled' )
self.moveDownBtn.grid(column=1, row=r , padx=(10,10),pady=(20,1))
r += 1
tk.Radiobutton(self.m_frame, text="Left axis", variable=self.app.gMoveAxis, value="Left").grid(column=0, row=r, pady=(20,1))
tk.Radiobutton(self.m_frame, text="Both axis", variable=self.app.gMoveAxis, value="Both").grid(column=1, row=r, pady=(20,1))
tk.Radiobutton(self.m_frame, text="Right axis", variable=self.app.gMoveAxis, value="Right").grid(column=2, row=r, pady=(20,1))
class Guillotine:
def __init__(self,nb, app , queueCmd):
self.nb = nb
self.app = app
self.queueCmd = queueCmd
self.frame = ttk.Frame(self.nb)
self.levelGuillotine = 40
#self.frame2 = ttk.Frame(self.nb)
self.nb.add(self.frame, text=' Guillotine & Move ')
#self.t_frame= ttk.Frame(self.frame, highlightbackground="black" , highlightthickness=1)
self.t_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.l_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.r_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.m_frame= ttk.Frame(self.frame, relief="groove",padding=10)
#self.t_frame.pack(side = TOP)
self.l_frame.pack(side = LEFT , fill= Y)
self.r_frame.pack(side = RIGHT , fill= Y)
self.t_frame.pack(side = TOP)
self.m_frame.pack(side = TOP)
r = 0
tk.Label(self.l_frame, text="Guillotine",font=("Helvetica", 18)).grid(column=0, row=r, pady=(1,1))
r += 1
tk.Label(self.l_frame, text="Cutting speed (mm/sec)").grid(column=0, row=r, pady=(20,1), sticky=E)
EntryFloat(self.l_frame, self.app.gCuttingSpeed , 0.1 , 10, self.levelGuillotine , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Apply calculated heating").grid(column=0, row=r, pady=(20,1), sticky=E)
tk.Checkbutton(self.l_frame, variable=self.app.gApplyCalculatedHeating , text='' ,
command=self.updateGuillotineHeating).grid(column=1, row=r , padx=1,pady=(20,1), sticky=W )
r += 1
tk.Label(self.l_frame, text="Heating (%)").grid(column=0, row=r, pady=(1,1), sticky=E)
self.gHeatingBox = EntryFloat(self.l_frame, self.app.gHeating , 0.1 , 100, self.levelGuillotine , width='6' )
self.gHeatingBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Type of guillotine").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Vertical", variable=self.app.gType, value="Vertical",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
self.gVDistBox = EntryFloat(self.l_frame, self.app.gVDist , -500 , 500, self.levelGuillotine , width='6' )
self.gVDistBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Horizontal", variable=self.app.gType, value="Horizontal",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
self.gHDistBox = EntryFloat(self.l_frame, self.app.gHDist , -500 , 500, self.levelGuillotine , width='6' , state='disabled' )
self.gHDistBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Inclined", variable=self.app.gType, value="Inclined",
command=self.changedGType).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.l_frame, text="Cutting while").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Going forward AND back", variable=self.app.gCuttingWhile, value="Both").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Only going forward", variable=self.app.gCuttingWhile, value="Forward").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.l_frame, text="Only going back", variable=self.app.gCuttingWhile, value="Back").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
self.goForwardBtn = tk.Button(self.l_frame, text = 'Go forward', command=self.goForward, width = 25 , state='disabled')
self.goForwardBtn.grid(column=0, columnspan=2 , row=r , padx=(10,10),pady=(10,1), sticky=W)
r += 1
self.goBackBtn = tk.Button(self.l_frame, text = 'Go back', command=self.goBackward, width = 25, state='disabled' )
self.goBackBtn.grid(column=0, columnspan=2, row=r , padx=(10,10),pady=(10,1), sticky=W)
r += 1
self.cancelBtn = tk.Button(self.l_frame, text = 'Cancel', command=self.app.tGrbl.resetGrbl, width = 25, state='disabled' )
self.cancelBtn.grid(column=0, columnspan=2, row=r , padx=(10,10),pady=(10,1), sticky=W)
r=0
tk.Label(self.t_frame, text="Grbl status").grid(column=3, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Horiz. left").grid(column=4, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Vertical left").grid(column=5, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Horiz. right").grid(column=6, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Vertical right").grid(column=7, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Speed").grid(column=8, row=r, pady=(1,1))
tk.Label(self.t_frame, text="Heating").grid(column=9, row=r, pady=(1,1))
r += 1
grblStatusBox = tk.Entry(self.t_frame, textvariable=self.app.grblStatus , width='20',state='disabled' )
grblStatusBox.grid(column=3, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblXG , width='8',state='disabled' ).grid(column=4, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblYG , width='8',state='disabled' ).grid(column=5, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblXD , width='8',state='disabled' ).grid(column=6, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblYD , width='8',state='disabled' ).grid(column=7, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblF , width='8',state='disabled' ).grid(column=8, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.t_frame, textvariable=self.app.grblS , width='8',state='disabled' ).grid(column=9, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
#self.msgText = ""
self.msgBox = tkst.ScrolledText(self.t_frame, width=80, height=4, wrap=tk.WORD)
self.msgBox.grid(column=0, row=r , columnspan=9, padx=(1,1),pady=(10,10), sticky=W)
r += 1
self.connectBtn = tk.Button(self.t_frame, text = 'Connect to Grbl', command=self.connect, width = 25 )
self.connectBtn.grid(column=3, row=r , columnspan=3, padx=(1,1),pady=(10,10), sticky=W)
self.disconnectBtn = tk.Button(self.t_frame, text = 'Disconnect from Grbl', command=self.disconnect, width = 25 , state='disabled' )
self.disconnectBtn.grid(column=6, row=r , columnspan=3, padx=(1,1),pady=(10,10), sticky=W)
r = 0
self.resetBtn = tk.Button(self.r_frame, text = 'Reset Grbl', command=self.app.tGrbl.resetGrbl,width = 25 , state='disabled' )
self.resetBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.unlockBtn = tk.Button(self.r_frame, text = 'Unlock Grbl', command=self.app.tGrbl.unlockGrbl, width = 25, state='disabled' )
self.unlockBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.homeBtn = tk.Button(self.r_frame, text = 'Home', command=self.app.tGrbl.homeGrbl, width = 25, state='disabled' )
self.homeBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.setBtn = tk.Button(self.r_frame, text = 'Set position', command=self.app.tGrbl.setPosGrbl, width = 25, state='disabled' )
self.setBtn.grid(column=2, row=r , padx=(10,10),pady=(40,1), sticky=W)
r += 1
self.gotoBtn = tk.Button(self.r_frame, text = 'Go to position', command=self.app.tGrbl.goToPosGrbl, width = 25, state='disabled' )
self.gotoBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r += 1
self.startHeatingBtn = tk.Button(self.r_frame, text = 'Start heating', command=self.startHeat, width = 25, state='disabled' )
self.startHeatingBtn.grid(column=2, row=r , padx=(10,10),pady=(40,1), sticky=W)
r += 1
self.stopHeatingBtn = tk.Button(self.r_frame, text = 'Stop heating', command=self.stopHeat, width = 25, state='disabled' )
self.stopHeatingBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1), sticky=W)
r=0
tk.Label(self.m_frame, text="Move",font=("Helvetica", 18)).grid(column=0, row=r, columnspan= 3, pady=(20,1))
r += 1
self.moveUpBtn = tk.Button(self.m_frame, text = 'Up', command=self.moveUp, width = 15, state='disabled' )
self.moveUpBtn.grid(column=1, row=r , padx=(10,10),pady=(20,1))
r += 1
self.moveBackBtn = tk.Button(self.m_frame, text = 'Back', command=self.moveBack, width = 15, state='disabled' )
self.moveBackBtn.grid(column=0, row=r , padx=(10,10),pady=(20,1))
EntryFloat(self.m_frame, self.app.gMoveDist , 0.1 , 500, self.levelGuillotine , width='6' ).grid(column=1, row=r , padx=1,pady=(20,1))
self.moveForwardBtn = tk.Button(self.m_frame, text = 'Forward', command=self.moveForward, width = 15, state='disabled' )
self.moveForwardBtn.grid(column=2, row=r , padx=(10,10),pady=(20,1))
r += 1
self.moveDownBtn = tk.Button(self.m_frame, text = 'Down', command=self.moveDown, width = 15, state='disabled' )
self.moveDownBtn.grid(column=1, row=r , padx=(10,10),pady=(20,1))
r += 1
tk.Radiobutton(self.m_frame, text="Left axis", variable=self.app.gMoveAxis, value="Left").grid(column=0, row=r, pady=(20,1))
tk.Radiobutton(self.m_frame, text="Both axis", variable=self.app.gMoveAxis, value="Both").grid(column=1, row=r, pady=(20,1))
tk.Radiobutton(self.m_frame, text="Right axis", variable=self.app.gMoveAxis, value="Right").grid(column=2, row=r, pady=(20,1))
def changedGType(self):
if self.app.gType.get() == "Vertical":
self.gVDistBox['state'] = 'normal'
self.gHDistBox['state'] = 'disabled'
elif self.app.gType.get() == "Horizontal":
self.gVDistBox['state'] = 'disabled'
self.gHDistBox['state'] = 'normal'
else:
self.gVDistBox['state'] = 'normal'
self.gHDistBox['state'] = 'normal'
def updateGuillotineHeating(self):
#if box is checked, calculate heating based on speed and materail and disable the heating box
# else keep the value but limit it depending on table parameter and set heating box state on normal
if self.app.gApplyCalculatedHeating.get():
self.gHeatingBox['validate']='none' #disable focusout while updating
self.app.gHeating.set(self.calculateHeating(self.app.gCuttingSpeed.get()) )
self.gHeatingBox['validate']='focusout' #enable focusout after updating
self.gHeatingBox['state']= 'disabled'
else:
self.gHeatingBox['state']= 'normal'
def calculateHeating(self, speed):
x1 = self.app.mSpeedLow.get()
x2 = self.app.mSpeedHigh.get()
y1 = self.app.mHeatSpLow.get()
y2 = self.app.mHeatSpHigh.get()
heat = 0
if (x2-x1) != 0:
heat = y1 + (y2-y1)/(x2-x1)*(speed - x1)
#print(x1, x2, y1 ,y2 , heat)
if heat < 1:
heat =1
if heat > self.app.tHeatingMax.get():
heat = self.app.tHeatingMax.get()
return heat
def calculateMove(self , factor):
axis = self.app.gCodeLetters.get()
if self.app.gType.get() == "Vertical":
move = axis[1] + str(factor * self.app.gVDist.get()) + axis[3] + str(factor * self.app.gVDist.get())
elif self.app.gType.get() == "Horizontal":
move = axis[0] + str(factor * self.app.gHDist.get()) + axis[2] + str(factor * self.app.gHDist.get())
else:
move = axis[1] + str(factor * self.app.gVDist.get()) + axis[0] + str(factor * self.app.gHDist.get()) + (
axis[3] + str(factor * self.app.gVDist.get()) + axis[2] + str(factor * self.app.gHDist.get()) )
return move
def goForward(self):
command = ["G21" , "G91", "G94"] # mm incremental normal feed rate
if self.app.gCuttingWhile.get() == "Forward" or self.app.gCuttingWhile.get() == "Both":
command.append("M3")
command.append("S" + str( int(self.app.gHeating.get()) ) )
command.append( "G04P" + str(self.app.tPreHeat.get() ) )
command.append("F" +str(60 * self.app.gCuttingSpeed.get() ))
command.append( "G01")
else:
command.append( "G00")
command.append( self.calculateMove(1))
if self.app.gCuttingWhile.get() == "Forward" or self.app.gCuttingWhile.get() == "Both":
command.append( "G04P" + str(self.app.tPostHeat.get() ) )
command.append("M5")
print("\n".join(command))
self.app.tGrbl.stream("\n".join(command))
def goBackward(self):
command = ["G21" , "G91", "G94"] # mm incremental normal feed rate
if self.app.gCuttingWhile.get() == "Back" or self.app.gCuttingWhile.get() == "Both":
command.append("M3")
command.append("S" + str( int(self.app.gHeating.get()) ) )
command.append( "G04P" + str(self.app.tPreHeat.get() ) )
command.append("F"+str(60 * self.app.gCuttingSpeed.get() ))
command.append( "G01")
else:
command.append( "G00")
command.append( self.calculateMove(-1))
if self.app.gCuttingWhile.get() == "Back" or self.app.gCuttingWhile.get() == "Both":
command.append( "G04P" + str(self.app.tPostHeat.get() ) )
command.append("M5")
print("\n".join(command))
self.app.tGrbl.stream("\n".join(command))
def startHeat(self):
command = ["S" + str( int(self.app.gHeating.get()) ) , "M3"]
self.app.tGrbl.stream("\n".join(command))
def stopHeat(self):
command = ["S0" ,"M5"]
self.app.tGrbl.stream("\n".join(command))
def moveUp(self):
self.move("Up")
def moveDown(self):
self.move("Down")
def moveForward(self):
self.move("Forward")
def moveBack(self):
self.move("Back")
def move(self, dir):
command = ["G21" , "G91" , "G94"] # mm incremental normal feed rate
axis = self.app.gCodeLetters.get()
axisIdx = 0
dirPos = 1
if dir == "Up":
axisIdx = 1
elif dir == "Down":
axisIdx = 1
dirPos = -1
elif dir == "Back":
dirPos = -1
if self.app.gMoveAxis.get() == "Left":
command.append("G00 "+ axis[axisIdx]+ str(dirPos * self.app.gMoveDist.get() ) )
elif self.app.gMoveAxis.get() == "Right":
command.append("G00 "+ axis[axisIdx+2]+ str(dirPos * self.app.gMoveDist.get() ) )
else:
command.append("G00 "+ axis[axisIdx]+ str(dirPos * self.app.gMoveDist.get() ) +
axis[axisIdx+2]+ str(dirPos * self.app.gMoveDist.get() ) )
print("\n".join(command))
self.app.tGrbl.stream("\n".join(command))
def connect(self):
self.queueCmd.put("Connect")
def disconnect(self):
self.queueCmd.put("Disconnect")
def updateBtnState(self):
grblStatus= self.app.grblStatus.get()
if grblStatus == "Not connected" or grblStatus == "Connection lost":
state = 'disabled'
oppositeState = 'normal'
else:
state = 'normal'
oppositeState = 'disabled'
self.goForwardBtn['state'] = state
self.goBackBtn['state'] = state
self.cancelBtn['state'] = state
self.connectBtn['state'] = oppositeState
self.disconnectBtn['state'] = state
self.resetBtn['state'] = state
self.unlockBtn['state'] = state
self.homeBtn['state'] = state
self.setBtn['state'] = state
self.gotoBtn['state'] = state
self.startHeatingBtn['state'] = state
self.stopHeatingBtn['state'] = state
self.moveUpBtn['state'] = state
self.moveBackBtn['state'] = state
self.moveForwardBtn['state'] = state
self.moveDownBtn['state'] = state
self.app.tCut.cutBtn['state'] = state
self.app.tCut.cancelBtn['state'] = state
def __init__(self, nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.levelCut = 30
self.nb.add(self.frame, text=' Cut ')
self.lastGcodeFileName = ""
#self.l_frame= ttk.Frame(self.frame, relief="groove",padding=10)
#self.r_frame= ttk.Frame(self.frame, relief="groove",padding=10)
self.l_frame = ttk.Frame(self.frame)
self.r_frame = ttk.Frame(self.frame)
self.l_frame.pack(side=LEFT, fill=Y)
self.r_frame.pack(side=RIGHT, fill=Y)
r = 0
self.cutBtn = tk.Button(self.l_frame,
text='Cut',
width=25,
command=self.cut,
state='disabled')
self.cutBtn.grid(column=0, row=r, padx=1, pady=(20, 1))
r += 1
self.cancelBtn = tk.Button(self.l_frame,
text='Cancel',
command=self.app.tGrbl.resetGrbl,
width=25,
state='disabled')
self.cancelBtn.grid(column=0,
columnspan=2,
row=r,
pady=(10, 1),
sticky=W)
r += 1
self.button2 = tk.Button(self.l_frame,
text='Save Gcode',
width=25,
command=self.saveGcode)
self.button2.grid(column=0, row=r, padx=1, pady=(20, 1))
r += 1
tk.Label(self.l_frame,
text="Usual cutting speed (mm/sec)").grid(column=0,
row=r,
pady=(20, 1),
sticky=W)
EntryFloat(self.l_frame,
self.app.vCut,
0.1,
10,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(20, 1),
sticky=W)
#r += 1
#tk.Label(self.l_frame, text="Entry slope (degree)").grid(column=0, row=r, pady=(2,1), sticky=W)
r += 1
tk.Label(self.l_frame,
text="Entry slope (degree) At root)").grid(column=0,
row=r,
pady=(10,
1),
sticky=E)
EntryFloat(self.l_frame,
self.app.angleInRoot,
-70,
+70,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(10, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, text="At tip)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.l_frame,
self.app.angleInTip,
-70,
+70,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
#r += 1
#tk.Label(self.l_frame, text="Exit slope (degree)").grid(column=0, row=r, pady=(5,1), sticky=W)
r += 1
tk.Label(self.l_frame,
text="Exit slope (degree) At root)").grid(column=0,
row=r,
pady=(1,
1),
sticky=E)
EntryFloat(self.l_frame,
self.app.angleOutRoot,
-70,
+70,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, text="At tip)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.l_frame,
self.app.angleOutTip,
-70,
+70,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, text="Errors").grid(column=0,
row=r,
pady=(20, 1),
padx=(2, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, textvariable=self.app.cutMsg,
height=10).grid(column=0,
columnspan=2,
row=r,
pady=(1, 1),
padx=(10, 1),
sticky=NW)
r += 1
tk.Label(self.l_frame, text=" Display starts at ").grid(column=0,
row=r,
pady=(10, 1),
sticky=E)
r += 1
tk.Label(self.l_frame, text="X (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.l_frame,
self.app.limMinX,
0,
1500,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, text="Y (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.l_frame,
self.app.limMinY,
0,
500,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.l_frame, text="Zoom factor").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
ttk.Combobox(self.l_frame,
textvariable=self.app.zoom,
values=["1X", "2X", "5X", "10X", "20X", "50", "100X"],
state="readonly",
width='4').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=E)
self.app.zoom.trace('w', self.calculateRedraw2)
self.dotX = 10 # define the size and ratio of the figure
self.dotY = 3
self.figRoot = Figure(figsize=(self.dotX, self.dotY), dpi=100)
self.axesRoot = self.figRoot.add_subplot(1, 1, 1)
self.axesRoot.spines['top'].set_visible(False) #avoid top frame
self.axesRoot.spines['right'].set_visible(False)
self.axesRoot.autoscale(enable=False)
#self.axesRoot.set_xlim(0, 100)
#self.axesRoot.set_ylim(0, 30)
#self.axesRoot.set_title('Root')
self.lineWireRoot1, = self.axesRoot.plot([], [], 'k:', color='black')
self.lineProfileRoot2, = self.axesRoot.plot([], [], color='red')
self.lineBlocRoot, = self.axesRoot.plot([], [], color='black')
self.arrowRoot = None #use to annotate the line with an arrow
self.figRoot.legend(
(self.lineProfileRoot2, self.lineWireRoot1, self.lineBlocRoot),
('Root profile', 'Wire', 'Bloc'), 'upper right')
self.figRoot.set_tight_layout(True)
self.canvasRoot = FigureCanvasTkAgg(
self.figRoot, master=self.r_frame) # A tk.DrawingArea.
self.canvasRoot.draw()
self.canvasRoot.get_tk_widget().grid(column=2,
row=0,
rowspan=22,
padx=10,
pady=(2, 2))
self.figTip = Figure(figsize=(self.dotX, self.dotY), dpi=100)
self.axesTip = self.figTip.add_subplot(1, 1, 1)
self.axesTip.spines['top'].set_visible(False) #avoid top frame
self.axesTip.spines['right'].set_visible(False)
self.axesTip.autoscale(enable=False)
self.lineWireTip1, = self.axesTip.plot([], [], 'k:', color='black')
self.lineProfileTip2, = self.axesTip.plot([], [], color='blue')
self.lineBlocTip, = self.axesTip.plot([], [], color='black')
self.arrowTip = None
self.figTip.legend(
(self.lineProfileTip2, self.lineWireTip1, self.lineBlocTip),
('Tip profile', 'Wire', 'Bloc'), 'upper right')
self.figTip.set_tight_layout(True)
self.canvasTip = FigureCanvasTkAgg(
self.figTip, master=self.r_frame) # A tk.DrawingArea.
self.canvasTip.draw()
self.canvasTip.get_tk_widget().grid(column=2,
row=22,
rowspan=22,
padx=10,
pady=(10, 2))
def __init__(self,nb , app ):
self.first = 0
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 20
self.nb.add(self.frame, text=' Bloc (top view) ')
r = 0
tk.Label(self.frame, text="Wingspan (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocLX , 10 , 1000, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Bloc thickness (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocHZ , 1 , 500, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Flèche (mm)").grid(column=0, row=r, pady=(10,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.fLeading , -500 , 500, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
#EntryFloat(self.frame, self.app.fTrailing , -500 , 500, self.level+3 , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.fTrailing, width='6', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Margins (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mLeading , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mTrailingRoot , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mTrailingTip , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Left / Right wing").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="Left", variable=self.app.leftRightWing, value="Left",
command=self.validateAllLevelBloc).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="Right", variable=self.app.leftRightWing, value="Right",
command=self.validateAllLevelBloc).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Distance between table and block (mm)").grid(column=0, columnspan=2, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="On the left side", variable=self.app.blocPosition, value="Left",
command=self.blocPositionChanged).grid(column=0, row=r, pady=(1,1), sticky=W)
self.blocToTableLeftBox = EntryFloat(self.frame, self.app.blocToTableLeft , 0 , 1000, self.level , width='6' )
self.blocToTableLeftBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="On the rigth side", variable=self.app.blocPosition, value="Right",
command=self.blocPositionChanged).grid(column=0, row=r, pady=(1,1), sticky=W)
self.blocToTableRightBox = EntryFloat(self.frame, self.app.blocToTableRight , 0 , 1000, self.level , width='6' , state='disabled')
self.blocToTableRightBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Distance between table origin and ").grid(column=0, columnspan=2, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocToTableTrailingRoot , 0 , 500, self.level , width='6').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableTrailingTip , width='5' , state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableLeadingRoot , width='5', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableLeadingTip , width='5', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
self.blocTopFig = Figure(figsize=(8, 6), dpi=100)
self.blocTopAxes = self.blocTopFig.add_subplot(1,1,1)
self.blocTopAxes.set_xlim(0, 1600)
self.blocTopAxes.set_ylim(0, 1200)
self.blocTopAxes.set_title('Top view')
self.blocTopAxes.spines['top'].set_visible(False)
self.blocTopAxes.spines['right'].set_visible(False)
self.blocTopAxes.autoscale(enable=False)
#self.blocTopAxes.axis('equal')
self.plotTable, = self.blocTopAxes.plot([], [] ) #draw table
self.plotBloc, = self.blocTopAxes.plot([], [] ) #draw table
self.plotLeading, = self.blocTopAxes.plot([], [] , 'k--') #draw leading edge
self.plotTrailing, = self.blocTopAxes.plot([], [] , 'k--') #draw trailing edge
self.blocTopCanvas = FigureCanvasTkAgg(self.blocTopFig, master=self.frame) # A tk.DrawingArea.
self.blocTopCanvas.draw()
self.blocTopCanvas.get_tk_widget().grid(column=2, row=0, rowspan=20, padx=10 , pady=(20,2))
self.updatePlotBloc()
class Bloc:
def __init__(self,nb , app ):
self.first = 0
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 20
self.nb.add(self.frame, text=' Bloc (top view) ')
r = 0
tk.Label(self.frame, text="Wingspan (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocLX , 10 , 1000, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Bloc thickness (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocHZ , 1 , 500, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Flèche (mm)").grid(column=0, row=r, pady=(10,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.fLeading , -500 , 500, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
#EntryFloat(self.frame, self.app.fTrailing , -500 , 500, self.level+3 , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.fTrailing, width='6', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Margins (mm)").grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mLeading , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mTrailingRoot , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.mTrailingTip , -20 , 50, self.level , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Left / Right wing").grid(column=0, row=r, pady=(20,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="Left", variable=self.app.leftRightWing, value="Left",
command=self.validateAllLevelBloc).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="Right", variable=self.app.leftRightWing, value="Right",
command=self.validateAllLevelBloc).grid(column=0, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Distance between table and block (mm)").grid(column=0, columnspan=2, row=r, pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="On the left side", variable=self.app.blocPosition, value="Left",
command=self.blocPositionChanged).grid(column=0, row=r, pady=(1,1), sticky=W)
self.blocToTableLeftBox = EntryFloat(self.frame, self.app.blocToTableLeft , 0 , 1000, self.level , width='6' )
self.blocToTableLeftBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Radiobutton(self.frame, text="On the rigth side", variable=self.app.blocPosition, value="Right",
command=self.blocPositionChanged).grid(column=0, row=r, pady=(1,1), sticky=W)
self.blocToTableRightBox = EntryFloat(self.frame, self.app.blocToTableRight , 0 , 1000, self.level , width='6' , state='disabled')
self.blocToTableRightBox.grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text="Distance between table origin and ").grid(column=0, columnspan=2, row=r, pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
EntryFloat(self.frame, self.app.blocToTableTrailingRoot , 0 , 500, self.level , width='6').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableTrailingTip , width='5' , state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Root leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableLeadingRoot , width='5', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
r += 1
tk.Label(self.frame, text=" Tip leading edge").grid(column=0, row=r, pady=(1,1), sticky=W)
tk.Entry(self.frame, textvariable=self.app.blocToTableLeadingTip , width='5', state='disabled').grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
self.blocTopFig = Figure(figsize=(8, 6), dpi=100)
self.blocTopAxes = self.blocTopFig.add_subplot(1,1,1)
self.blocTopAxes.set_xlim(0, 1600)
self.blocTopAxes.set_ylim(0, 1200)
self.blocTopAxes.set_title('Top view')
self.blocTopAxes.spines['top'].set_visible(False)
self.blocTopAxes.spines['right'].set_visible(False)
self.blocTopAxes.autoscale(enable=False)
#self.blocTopAxes.axis('equal')
self.plotTable, = self.blocTopAxes.plot([], [] ) #draw table
self.plotBloc, = self.blocTopAxes.plot([], [] ) #draw table
self.plotLeading, = self.blocTopAxes.plot([], [] , 'k--') #draw leading edge
self.plotTrailing, = self.blocTopAxes.plot([], [] , 'k--') #draw trailing edge
self.blocTopCanvas = FigureCanvasTkAgg(self.blocTopFig, master=self.frame) # A tk.DrawingArea.
self.blocTopCanvas.draw()
self.blocTopCanvas.get_tk_widget().grid(column=2, row=0, rowspan=20, padx=10 , pady=(20,2))
self.updatePlotBloc()
def validateAllLevelBloc(self):
self.app.validateAll(self.level)
"""
def validate_blocToTableLeft(self):
if self.first > 0:
self.app.validateAll()
self.first = 1
return True
"""
def blocPositionChanged(self):
if self.app.blocPosition.get() == 'Left':
self.blocToTableLeftBox['state']='normal'
self.blocToTableRightBox['state']='disabled'
else:
self.blocToTableLeftBox['state']='disabled'
self.blocToTableRightBox['state']='normal'
def updatePlotBloc(self): #update plotting the bloc (1 canvas: Top)
# draw table
cMaxY = self.app.cMaxY.get()
cMaxX = self.app.tableYY.get() - self.app.tableYG.get() - self.app.tableYD.get()
self.plotTable.set_xdata([0, 0 , cMaxX, cMaxX, 0 ])
self.plotTable.set_ydata([0 , cMaxY, cMaxY, 0 , 0 ])
#draw bloc
bGX = self.app.blocToTableLeft.get()
bDX = self.app.blocToTableLeft.get() + self.app.blocLX.get()
if self.app.leftRightWing.get() == "Right":
bGTY = self.app.blocToTableTrailingRoot.get()
bGLY = self.app.blocToTableLeadingRoot.get()
bDTY = self.app.blocToTableTrailingTip.get()
bDLY = self.app.blocToTableLeadingTip.get()
else:
bGTY = self.app.blocToTableTrailingTip.get()
bGLY = self.app.blocToTableLeadingTip.get()
bDTY = self.app.blocToTableTrailingRoot.get()
bDLY = self.app.blocToTableLeadingRoot.get()
self.plotBloc.set_xdata( [bGX , bGX , bDX, bDX , bGX ] )
self.plotBloc.set_ydata( [bGTY , bGLY, bDLY , bDTY , bGTY] )
# draw trailing edge
fTGX = self.app.blocToTableLeft.get()
fTDX = fTGX + self.app.blocLX.get()
fTGXp = 0
fTDXp = self.app.tableYY.get() - self.app.tableYD.get() - self.app.tableYG.get()
if self.app.leftRightWing.get() == "Right":
fTGY = self.app.blocToTableTrailingRoot.get() + self.app.mTrailingRoot.get()
fTDY = self.app.blocToTableTrailingTip.get() + self.app.mTrailingTip.get()
else:
fTGY = self.app.blocToTableTrailingTip.get() + self.app.mTrailingTip.get()
fTDY = self.app.blocToTableTrailingRoot.get() + self.app.mTrailingRoot.get()
fTGYp , fTDYp = projection( fTGX , fTDX , fTGY , fTDY , fTGXp , fTDXp )
self.plotTrailing.set_xdata( [fTGXp , fTDXp ] )
self.plotTrailing.set_ydata( [fTGYp , fTDYp] )
#draw leading edge
fLGX = fTGX
fLDX = fTDX
fLGXp = 0
fLDXp = fTDXp
if self.app.leftRightWing.get() == "Right":
fLGY = fTGY + self.app.cRoot.get()
fLDY = fTDY + self.app.cTip.get()
else:
fLGY = fTGY + self.app.cTip.get()
fLDY = fTDY + self.app.cRoot.get()
fLGYp , fLDYp = projection( fLGX , fLDX , fLGY , fLDY , fLGXp , fLDXp )
self.plotLeading.set_xdata( [fLGXp , fLDXp ] )
self.plotLeading.set_ydata( [fLGYp , fLDYp] )
self.blocTopCanvas.draw()
def __init__(self, nb, app):
self.first = 0
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 20
self.nb.add(self.frame, text=' Heights & Margins (side view) ')
r = 0
tk.Label(self.frame, text="Block height (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame, self.app.blocHZ, 1, 500, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Block elevation (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame, self.app.hOffset, 0, 500, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 3
tk.Label(self.frame,
text="Vertical positioning of the profile (mm)").grid(
column=0, row=r, pady=(10, 1), sticky=W)
EntryFloat(self.frame, self.app.hProfil, 0, 500, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(10, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Profile alignment").grid(column=0,
row=r,
pady=(10, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Align trailing edges",
variable=self.app.alignProfil,
value="Trailing",
command=self.validateAllLevelMargin).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Align leading edges",
variable=self.app.alignProfil,
value="Leading",
command=self.validateAllLevelMargin).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Align intrados",
variable=self.app.alignProfil,
value="Intrados",
command=self.validateAllLevelMargin).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Align extrados",
variable=self.app.alignProfil,
value="Extrados",
command=self.validateAllLevelMargin).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r = 0
tk.Label(self.frame,
text=" - Heights relative to block-").grid(column=3,
row=r,
columnspan=5,
pady=(10, 1),
sticky=(W, E))
r += 1
tk.Label(self.frame, text="Trailing edge").grid(column=3,
row=r,
columnspan=3,
pady=(1, 1),
sticky=W)
tk.Label(self.frame, text="Leading edge").grid(column=7,
row=r,
columnspan=3,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Root").grid(column=2,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hTrailingRoot,
width='6',
state='disabled').grid(column=3,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hLeadingRoot,
width='6',
state='disabled').grid(column=7,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Tip").grid(column=2,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hTrailingTip,
width='6',
state='disabled').grid(column=3,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hLeadingTip,
width='6',
state='disabled').grid(column=7,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r = 0
tk.Label(self.frame,
text=" - Margins relative to block -").grid(column=13,
row=r,
columnspan=5,
pady=(10, 1),
sticky=(W, E))
r += 1
tk.Label(self.frame, text="Intrados").grid(column=13,
row=r,
columnspan=3,
pady=(1, 1),
sticky=W)
tk.Label(self.frame, text="Extrados").grid(column=17,
row=r,
columnspan=3,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Root").grid(column=12,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hMinRoot,
width='6',
state='disabled').grid(column=13,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hMaxRoot,
width='6',
state='disabled').grid(column=17,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Tip").grid(column=12,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hMinTip,
width='6',
state='disabled').grid(column=13,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.hMaxTip,
width='6',
state='disabled').grid(column=17,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, textvariable=self.app.warningMsg,
fg='red').grid(column=2, columnspan=15, row=r, pady=(1, 1))
#lists to draw the bloc
blocRootX = [
self.app.blocToTableTrailingRoot.get(),
self.app.blocToTableLeadingRoot.get(),
self.app.blocToTableLeadingRoot.get(),
self.app.blocToTableTrailingRoot.get(),
self.app.blocToTableTrailingRoot.get()
]
blocTipX = [
self.app.blocToTableTrailingTip.get(),
self.app.blocToTableLeadingTip.get(),
self.app.blocToTableLeadingTip.get(),
self.app.blocToTableTrailingTip.get(),
self.app.blocToTableTrailingTip.get()
]
hOffset = self.app.hOffset.get()
blocHZ = self.app.blocHZ.get()
blocRootY = [
hOffset, hOffset, hOffset + blocHZ, hOffset + blocHZ, hOffset
]
blocTipY = blocRootY
self.figRoot = Figure(figsize=(10, 2), dpi=100)
self.axesRoot = self.figRoot.add_subplot(1, 1, 1)
self.axesRoot.set_xlim(0, 1300)
self.axesRoot.set_ylim(0, 260)
self.axesRoot.set_title('Root')
self.axesRoot.autoscale(enable=False)
self.axesRoot.spines['top'].set_visible(False)
self.axesRoot.spines['right'].set_visible(False)
self.plotBlocRoot, = self.axesRoot.plot(blocRootX,
blocRootY,
color='black')
self.plotRoot, = self.axesRoot.plot(self.app.pRootX,
self.app.pRootY,
color='red')
self.canvasRoot = FigureCanvasTkAgg(
self.figRoot, master=self.frame) # A tk.DrawingArea.
self.canvasRoot.draw()
self.canvasRoot.get_tk_widget().grid(column=2,
rowspan=3,
columnspan=20,
row=5,
pady=(20, 2))
self.figTip = Figure(figsize=(10, 2), dpi=100)
self.axesTip = self.figTip.add_subplot(1, 1, 1)
self.axesTip.set_xlim(0, 1300)
self.axesTip.set_ylim(0, 260)
self.axesTip.set_title('Tip')
self.axesTip.autoscale(enable=False)
self.axesTip.spines['top'].set_visible(False)
self.axesTip.spines['right'].set_visible(False)
self.plotBlocTip, = self.axesTip.plot(blocTipX,
blocTipY,
color='black')
self.plotTip, = self.axesTip.plot(self.app.pTipX,
self.app.pTipY,
color='blue')
self.canvasTip = FigureCanvasTkAgg(
self.figTip, master=self.frame) # A tk.DrawingArea.
self.canvasTip.draw()
self.canvasTip.get_tk_widget().grid(column=2,
rowspan=3,
columnspan=20,
row=9,
pady=(20, 2))
def __init__(self, nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.levelBloc = 20
self.levelCut = 30
self.nb.add(self.frame, text=' Table ')
#reg_tableYY = self.frame.register(self.validate_tableYY) #enregistre la fonction de validation
r = 0
tk.Button(self.frame,
text='Upload saved table',
command=self.app.uploadTable,
width=25).grid(column=0, row=r, pady=10)
r += 1
tk.Button(self.frame,
text='Save current table',
command=self.app.saveTable,
width=25).grid(column=0, row=r, pady=10)
r += 1
tk.Label(self.frame, text="Table (name)").grid(column=0,
row=r,
pady=(20, 2))
r += 1
tk.Entry(self.frame, textvariable=self.app.tName,
width='50').grid(column=0,
columnspan=2,
row=r,
padx=1,
pady=(1, 10),
sticky=W)
r += 1
tk.Label(self.frame,
text="Distance between axes (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.tableYY , width='5' , validate='focusout',
# validatecommand=(reg_tableYY) ).grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.tableYY,
10,
1600,
self.levelBloc,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame,
text="Distance between table and").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" left axis (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.tableYG , width='5').grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.tableYG,
1,
500,
self.levelBloc,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" right axis (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.tableYD , width='5').grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.tableYD,
1,
500,
self.levelBloc,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Max course (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Horizontal").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.cMaxY , width='5').grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.cMaxY,
1,
1300,
self.levelBloc,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Vertical").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.cMaxZ , width='5').grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.cMaxZ,
1,
1200,
self.levelBloc,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Max speed (mm/sec)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Horizontal").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#tk.Entry(self.frame, textvariable=self.app.vMaxY , width='5').grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame, self.app.vMaxY, 1, 50, self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Vertical").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#reg_vMaxZ = self.frame.register(self.validate_vMaxZ)
#tk.Entry(self.frame, textvariable=self.app.vMaxZ , width='5' ).grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.vMaxZ,
1,
500,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Max heating").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#reg_vMaxZ = self.frame.register(self.validate_vMaxZ)
#tk.Entry(self.frame, textvariable=self.app.vMaxZ , width='5' ).grid(column=1, row=r , padx=1,pady=(1,1))
EntryFloat(self.frame,
self.app.tHeatingMax,
1,
100,
self.levelCut,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 2
tk.Label(self.frame, text=" Com Port").grid(column=0,
row=r,
pady=(20, 1),
sticky=W)
self.comListBox = ttk.Combobox(self.frame,
textvariable=self.app.tComPort,
values=self.comGet(),
state="readonly")
self.comListBox.grid(column=1, row=r, padx=1, pady=(20, 1), sticky=E)
tk.Button(self.frame,
text='Refresh Com list',
command=self.refreshComList).grid(column=2,
row=r,
pady=(20, 1),
padx=20)
r += 1
tk.Label(self.frame, text=" Baudrate").grid(column=0,
row=r,
pady=(10, 1),
sticky=W)
ttk.Combobox(self.frame,
textvariable=self.app.tBaudrate,
values=["9600", "19200", "38400", "57600", "115200"],
state="readonly").grid(column=1,
row=r,
padx=1,
pady=(10, 1),
sticky=E)
r += 1
tk.Label(self.frame, text="Selected Com is").grid(column=0,
row=r,
pady=(10, 1),
sticky=E)
tk.Entry(self.frame, textvariable=self.app.connected,
width='5').grid(column=1,
row=r,
padx=1,
pady=(10, 1),
sticky=W)
r = 3
tk.Label(self.frame,
text="Apply heating before move (sec)").grid(column=3,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.tPreHeat,
0,
10,
self.levelCut,
width='6').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame,
text="Keep heating after move (sec)").grid(column=3,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.tPostHeat,
0,
10,
self.levelCut,
width='6').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 2
tk.Label(self.frame, text="Gcode").grid(column=3, row=r, pady=(1, 1))
r += 1
tk.Label(self.frame, text=" start with").grid(column=3,
row=r,
pady=(1, 1),
sticky=E)
tk.Entry(self.frame, textvariable=self.app.gCodeStart1,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeStart2,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeStart3,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeStart4,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" end with").grid(column=3,
row=r,
pady=(1, 1),
sticky=E)
tk.Entry(self.frame, textvariable=self.app.gCodeEnd1,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeEnd2,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeEnd3,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Entry(self.frame, textvariable=self.app.gCodeEnd4,
width='20').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 2
tk.Label(self.frame, text="Axis letters").grid(column=3,
row=r,
pady=(1, 1),
sticky=E)
tk.Entry(self.frame, textvariable=self.app.gCodeLetters,
width='5').grid(column=4,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
class Bloc:
def __init__(self, nb, app):
self.first = 0
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 20
self.nb.add(self.frame, text=' Bloc (top view) ')
r = 0
tk.Label(self.frame, text="Wingspan (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.blocLX,
10,
1000,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Bloc thickness (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame, self.app.blocHZ, 1, 500, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Flèche (mm)").grid(column=0,
row=r,
pady=(10, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.fLeading,
-500,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Trailing edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
#EntryFloat(self.frame, self.app.fTrailing , -500 , 500, self.level+3 , width='6' ).grid(column=1, row=r , padx=1,pady=(1,1), sticky=W)
tk.Entry(self.frame,
textvariable=self.app.fTrailing,
width='6',
state='disabled').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Margins (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Leading edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.mLeading,
-20,
50,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.mTrailingRoot,
-20,
50,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.mTrailingTip,
-20,
50,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Left / Right wing").grid(column=0,
row=r,
pady=(20, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Left",
variable=self.app.leftRightWing,
value="Left",
command=self.validateAllLevelBloc).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="Right",
variable=self.app.leftRightWing,
value="Right",
command=self.validateAllLevelBloc).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame,
text="Distance between table and block (mm)").grid(
column=0, columnspan=2, row=r, pady=(1, 1), sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="On the left side",
variable=self.app.blocPosition,
value="Left",
command=self.blocPositionChanged).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
self.blocToTableLeftBox = EntryFloat(self.frame,
self.app.blocToTableLeft,
0,
1000,
self.level,
width='6')
self.blocToTableLeftBox.grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Radiobutton(self.frame,
text="On the rigth side",
variable=self.app.blocPosition,
value="Right",
command=self.blocPositionChanged).grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
self.blocToTableRightBox = EntryFloat(self.frame,
self.app.blocToTableRight,
0,
1000,
self.level,
width='6',
state='disabled')
self.blocToTableRightBox.grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame,
text="Distance between table origin and ").grid(column=0,
columnspan=2,
row=r,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Root trailing edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame,
self.app.blocToTableTrailingRoot,
0,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Tip trailing edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.blocToTableTrailingTip,
width='5',
state='disabled').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Root leading edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.blocToTableLeadingRoot,
width='5',
state='disabled').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text=" Tip leading edge").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
tk.Entry(self.frame,
textvariable=self.app.blocToTableLeadingTip,
width='5',
state='disabled').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
self.dotX = 10 # define the size and ratio of the figure
self.dotY = 6
self.blocTopFig = Figure(figsize=(self.dotX, self.dotY), dpi=100)
self.blocTopAxes = self.blocTopFig.add_subplot(1, 1, 1)
self.blocTopAxes.set_title('Top view')
self.blocTopAxes.spines['top'].set_visible(False)
self.blocTopAxes.spines['right'].set_visible(False)
self.blocTopAxes.autoscale(enable=False)
self.plotTable, = self.blocTopAxes.plot([], [],
color='green') #draw table
self.plotBloc, = self.blocTopAxes.plot([], [],
color='black') #draw bloc
self.plotLeading, = self.blocTopAxes.plot(
[], [], 'k-.', color='black') #draw leading edge
self.plotTrailing, = self.blocTopAxes.plot(
[], [], 'k--', color='black') #draw trailing edge
#arrow = self.blocTopAxes.arrow(10,30, 50, 50, head_width=10)
self.blocTopFig.legend((self.plotTable, self.plotBloc,
self.plotLeading, self.plotTrailing),
('Table', 'Bloc', 'Leading', 'Trailing'),
'upper right')
self.blocTopFig.set_tight_layout(True)
self.blocTopCanvas = FigureCanvasTkAgg(
self.blocTopFig, master=self.frame) # A tk.DrawingArea.
self.blocTopCanvas.draw()
self.blocTopCanvas.get_tk_widget().grid(column=2,
row=0,
rowspan=20,
padx=10,
pady=(20, 2))
self.updatePlotBloc()
def validateAllLevelBloc(self):
self.app.validateAll(self.level)
"""
def validate_blocToTableLeft(self):
if self.first > 0:
self.app.validateAll()
self.first = 1
return True
"""
def blocPositionChanged(self):
if self.app.blocPosition.get() == 'Left':
self.blocToTableLeftBox['state'] = 'normal'
self.blocToTableRightBox['state'] = 'disabled'
else:
self.blocToTableLeftBox['state'] = 'disabled'
self.blocToTableRightBox['state'] = 'normal'
def updatePlotBloc(self): #update plotting the bloc (1 canvas: Top)
# draw table
cMaxY = self.app.cMaxY.get()
cMaxX = self.app.tableYY.get() - self.app.tableYG.get(
) - self.app.tableYD.get()
# set the limits of X and Y depending on table size (keeping predifine ratio of the figure)
maxX = cMaxX + 3
maxY = cMaxY + 4
limMinX = -3
limMinY = -3
zoom = 1
if (maxY / maxX) < (self.dotY / self.dotX):
limMaxX = limMinX + (maxX / zoom)
limMaxY = limMinY + (maxX / zoom * self.dotY / self.dotX)
else:
limMaxY = limMinY + (maxY / zoom)
limMaxX = limMinX + (maxY / zoom * self.dotX / self.dotY)
self.blocTopAxes.set_xlim(limMinX, limMaxX)
self.blocTopAxes.set_ylim(limMinY, limMaxY)
self.plotTable.set_xdata([0, 0, cMaxX, cMaxX, 0])
self.plotTable.set_ydata([0, cMaxY, cMaxY, 0, 0])
#draw bloc
bGX = self.app.blocToTableLeft.get()
bDX = self.app.blocToTableLeft.get() + self.app.blocLX.get()
if self.app.leftRightWing.get() == "Right":
bGTY = self.app.blocToTableTrailingRoot.get()
bGLY = self.app.blocToTableLeadingRoot.get()
bDTY = self.app.blocToTableTrailingTip.get()
bDLY = self.app.blocToTableLeadingTip.get()
else:
bGTY = self.app.blocToTableTrailingTip.get()
bGLY = self.app.blocToTableLeadingTip.get()
bDTY = self.app.blocToTableTrailingRoot.get()
bDLY = self.app.blocToTableLeadingRoot.get()
self.plotBloc.set_xdata([bGX, bGX, bDX, bDX, bGX])
self.plotBloc.set_ydata([bGTY, bGLY, bDLY, bDTY, bGTY])
# draw trailing edge
fTGX = self.app.blocToTableLeft.get()
fTDX = fTGX + self.app.blocLX.get()
fTGXp = 0
fTDXp = self.app.tableYY.get() - self.app.tableYD.get(
) - self.app.tableYG.get()
if self.app.leftRightWing.get() == "Right":
fTGY = self.app.blocToTableTrailingRoot.get(
) + self.app.mTrailingRoot.get()
fTDY = self.app.blocToTableTrailingTip.get(
) + self.app.mTrailingTip.get()
else:
fTGY = self.app.blocToTableTrailingTip.get(
) + self.app.mTrailingTip.get()
fTDY = self.app.blocToTableTrailingRoot.get(
) + self.app.mTrailingRoot.get()
fTGYp, fTDYp = projection(fTGX, fTDX, fTGY, fTDY, fTGXp, fTDXp)
self.plotTrailing.set_xdata([fTGXp, fTDXp])
self.plotTrailing.set_ydata([fTGYp, fTDYp])
#draw leading edge
fLGX = fTGX
fLDX = fTDX
fLGXp = 0
fLDXp = fTDXp
if self.app.leftRightWing.get() == "Right":
fLGY = fTGY + self.app.cRoot.get()
fLDY = fTDY + self.app.cTip.get()
else:
fLGY = fTGY + self.app.cTip.get()
fLDY = fTDY + self.app.cRoot.get()
fLGYp, fLDYp = projection(fLGX, fLDX, fLGY, fLDY, fLGXp, fLDXp)
self.plotLeading.set_xdata([fLGXp, fLDXp])
self.plotLeading.set_ydata([fLGYp, fLDYp])
self.blocTopCanvas.draw()
def __init__(self, nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 10
self.nb.add(self.frame, text=' Transform ')
r = 0
tk.Label(self.frame, text="Root").grid(column=0, row=r, pady=(1, 2))
r += 1
tk.Label(self.frame, text="Chord").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.cRoot,
1,
self.app.cMaxY.get(),
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Thickness (%)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.thicknessRoot,
1,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Incidence (°)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.incidenceRoot,
-180,
180,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Vertically invert").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.vInvertRoot,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Tip").grid(column=0, row=r, pady=(20, 2))
r += 1
tk.Label(self.frame, text="Chord").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.cTip,
1,
self.app.cMaxY.get(),
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Thickness (%)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.thicknessTip,
1,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Incidence (°)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.incidenceTip,
-180,
180,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Vertically invert").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.vInvertTip,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Apply on both profils").grid(column=0,
row=r,
pady=(20, 2))
r += 1
tk.Label(self.frame, text="Smooth profiles").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
tk.Checkbutton(self.frame,
variable=self.app.smooth,
text='',
command=self.changeSmooth).grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=E)
r += 1
tk.Label(self.frame, text=" Number of points").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
self.nbrPointsBox = EntryFloat(self.frame,
self.app.nbrPoints,
10,
1000,
self.level,
width='6')
self.nbrPointsBox.grid(column=1, row=r, padx=1, pady=(1, 1), sticky=W)
r += 1
tk.Label(self.frame, text=" Spreading factor").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
self.repartitionBox = EntryFloat(self.frame,
self.app.repartition,
0.5,
2,
self.level,
width='6')
self.repartitionBox.grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Covering (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame, self.app.covering, -5, 5, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Extend to keep chords").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.keepChord,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Reduce nbr of points").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.reducePoints,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1))
r = 22
self.displayPoints = IntVar(value='1')
tk.Checkbutton(self.frame,
variable=self.displayPoints,
text='Show points',
command=self.validateAllLevelTransform).grid(column=2,
row=r,
padx=1,
pady=(1,
1))
r = 24
tk.Label(self.frame, textvariable=self.app.warningMsg,
fg='red').grid(column=2, columnspan=5, row=r, pady=(1, 1))
#tk.Label(self.frame, text="test", bg='red').grid(column=2, columnspan=5, row=r, pady=(1,1))
self.app.tRootX = np.array(self.app.oRootX)
self.app.tRootY = np.array(self.app.oRootY)
self.app.tTipX = np.array(self.app.oTipX)
self.app.tTipY = np.array(self.app.oTipY)
self.plotProfil()
class Transform:
def __init__(self, nb, app):
self.nb = nb
self.app = app
self.frame = ttk.Frame(self.nb)
self.level = 10
self.nb.add(self.frame, text=' Transform ')
r = 0
tk.Label(self.frame, text="Root").grid(column=0, row=r, pady=(1, 2))
r += 1
tk.Label(self.frame, text="Chord").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.cRoot,
1,
self.app.cMaxY.get(),
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Thickness (%)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.thicknessRoot,
1,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Incidence (°)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.incidenceRoot,
-180,
180,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Vertically invert").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.vInvertRoot,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Tip").grid(column=0, row=r, pady=(20, 2))
r += 1
tk.Label(self.frame, text="Chord").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.cTip,
1,
self.app.cMaxY.get(),
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Thickness (%)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.thicknessTip,
1,
500,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Incidence (°)").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
EntryFloat(self.frame,
self.app.incidenceTip,
-180,
180,
self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Vertically invert").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.vInvertTip,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Apply on both profils").grid(column=0,
row=r,
pady=(20, 2))
r += 1
tk.Label(self.frame, text="Smooth profiles").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
tk.Checkbutton(self.frame,
variable=self.app.smooth,
text='',
command=self.changeSmooth).grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=E)
r += 1
tk.Label(self.frame, text=" Number of points").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
self.nbrPointsBox = EntryFloat(self.frame,
self.app.nbrPoints,
10,
1000,
self.level,
width='6')
self.nbrPointsBox.grid(column=1, row=r, padx=1, pady=(1, 1), sticky=W)
r += 1
tk.Label(self.frame, text=" Spreading factor").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
self.repartitionBox = EntryFloat(self.frame,
self.app.repartition,
0.5,
2,
self.level,
width='6')
self.repartitionBox.grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Covering (mm)").grid(column=0,
row=r,
pady=(1, 1),
sticky=W)
EntryFloat(self.frame, self.app.covering, -5, 5, self.level,
width='6').grid(column=1,
row=r,
padx=1,
pady=(1, 1),
sticky=W)
r += 1
tk.Label(self.frame, text="Extend to keep chords").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.keepChord,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1),
sticky=W)
r += 1
tk.Label(self.frame, text="Reduce nbr of points").grid(column=0,
row=r,
pady=(1, 1),
sticky=E)
tk.Checkbutton(self.frame,
variable=self.app.reducePoints,
text='',
command=self.validateAllLevelTransform).grid(column=1,
row=r,
padx=1,
pady=(1,
1))
r = 22
self.displayPoints = IntVar(value='1')
tk.Checkbutton(self.frame,
variable=self.displayPoints,
text='Show points',
command=self.validateAllLevelTransform).grid(column=2,
row=r,
padx=1,
pady=(1,
1))
r = 24
tk.Label(self.frame, textvariable=self.app.warningMsg,
fg='red').grid(column=2, columnspan=5, row=r, pady=(1, 1))
#tk.Label(self.frame, text="test", bg='red').grid(column=2, columnspan=5, row=r, pady=(1,1))
self.app.tRootX = np.array(self.app.oRootX)
self.app.tRootY = np.array(self.app.oRootY)
self.app.tTipX = np.array(self.app.oTipX)
self.app.tTipY = np.array(self.app.oTipY)
self.plotProfil()
def changeSmooth(self):
if self.app.smooth.get() == 1:
self.nbrPointsBox['state'] = 'normal'
self.repartitionBox['state'] = 'normal'
else:
self.nbrPointsBox['state'] = 'disabled'
self.repartitionBox['state'] = 'disabled'
self.validateAllLevelTransform()
def validateAllLevelTransform(self):
self.app.validateAll(self.level)
def validateTransform(self):
#at the end, tRoot and tTip are generated, and draw but do not take care of bloc and margin
#convert List to numpy array
self.app.tRootX = np.array(self.app.oRootX)
self.app.tRootY = np.array(self.app.oRootY)
self.app.tRootS = self.app.oRootS.copy()
self.app.tTipX = np.array(self.app.oTipX)
self.app.tTipY = np.array(self.app.oTipY)
self.app.tTipS = self.app.oTipS.copy()
#apply thickness
if self.app.thicknessRoot.get() != 100.0:
self.app.tRootY = self.app.tRootY * self.app.thicknessRoot.get(
) / 100
if self.app.thicknessTip.get() != 100.0:
self.app.tTipY = self.app.tTipY * self.app.thicknessTip.get() / 100
#apply incidence
if self.app.incidenceRoot.get() != 0:
line = LineString(self.merge(
self.app.tRootX,
self.app.tRootY)) #create a linestring with a list of turple
rotated = affinity.rotate(
line,
-1 * self.app.incidenceRoot.get()) #rotate the linestring
rotatedXY = rotated.xy #extract the coordinate
self.app.tRootX = np.array(rotatedXY[0])
self.app.tRootY = np.array(rotatedXY[1])
if self.app.incidenceTip.get() != 0:
line = LineString(self.merge(
self.app.tTipX,
self.app.tTipY)) #create a linestring with a list of turple
rotated = affinity.rotate(
line, -1 * self.app.incidenceTip.get()) #rotate the linestring
rotatedXY = rotated.xy #extract the coordinate
self.app.tTipX = np.array(rotatedXY[0])
self.app.tTipY = np.array(rotatedXY[1])
# appy vertical invert
if self.app.vInvertRoot.get() == 1:
self.app.tRootY = self.app.tRootY * -1.0
self.app.tRootX = np.flip(self.app.tRootX)
self.app.tRootY = np.flip(self.app.tRootY)
if self.app.vInvertTip.get() == 1:
self.app.tTipY = self.app.tTipY * -1.0
self.app.tTipX = np.flip(self.app.tTipX)
self.app.tTipY = np.flip(self.app.tTipY)
# Normalise the 2 profiles based on chords and apply covering on Root and Tip
# Here we don't yet take care of position of bloc and of margin
self.app.tRootX, self.app.tRootY = self.app.normaliseArrayProfil(
self.app.tRootX, self.app.tRootY, self.app.cRoot.get())
self.app.tTipX, self.app.tTipY = self.app.normaliseArrayProfil(
self.app.tTipX, self.app.tTipY, self.app.cTip.get())
#print("root after normalise", self.app.tRootX, self.app.tRootY)
# apply smoothing (if asked) based on number of points and spreading repartition
if self.app.smooth.get() == 1:
self.app.tRootX, self.app.tRootY = self.changeNbrPoints(
self.app.tRootX, self.app.tRootY)
self.app.tTipX, self.app.tTipY = self.changeNbrPoints(
self.app.tTipX, self.app.tTipY)
# take care of covering
self.applyCovering()
# insert synchro points if they do not yet exist
if len(self.app.tRootS) == 0 or len(self.app.tTipS) == 0:
self.app.tRootS = self.addSynchroPoints(self.app.tRootX,
self.app.tRootY)
self.app.tTipS = self.addSynchroPoints(self.app.tTipX,
self.app.tTipY)
#self.printProfile("before simplify", self.app.tRootX , self.app.tRootY , self.app.tRootS)
# reduce the number of points but keep the synchronisation; the parameter is the max error (in mm)
if self.app.reducePoints.get() == 1:
#self.app.tRootX , self.app.tRootY , self.app.tTipX , self.app.tTipY = self.simplify(0.01)
self.app.tRootX, self.app.tRootY, self.app.tRootS = self.simplifyOneProfile(
self.app.tRootX, self.app.tRootY, self.app.tRootS, 0.01)
self.app.tTipX, self.app.tTipY, self.app.tTipS = self.simplifyOneProfile(
self.app.tTipX, self.app.tTipY, self.app.tTipS, 0.01)
#self.printProfile("after simplify", self.app.tRootX , self.app.tRootY , self.app.tRootS)
# insert mid first and last points of profile as defined before covering when extend to original coord is requested
self.applyKeepChord()
#self.printProfile("Root X Y S" , self.app.tRootX, self.app.tRootY , self.app.tRootS)
def printProfile(self, text, x, y, s):
print(text)
print("len x y s", len(x), len(y), len(s))
if len(x) > 0 and len(x) == len(y) and len(x) == len(s):
i = 0
imax = len(x)
while i < imax:
print(" ", x[i], y[i], s[i])
i += 1
def addSynchroPoints(self, x, y):
#create a list with the synchronisation point (4 = synchro; 0 = no synchro, 10 = synchro and no radiance)
#first and last points are synchronisation points
# point with the greatest X is also a synchro
s = []
if len(x) > 0:
s = [0] * len(x) # create a list with 0 every where
s[0] = 4 # add synchro for the first and last point
s[-1] = 4
# find the point with max X
maxX = np.max(x)
# find the index of this point
idxMax = np.where(x == maxX) #return an array with indexes
if len(idxMax) > 0 and len(idxMax[0]) > 0:
r = idxMax[0][0]
s[r] = 4
else:
r = 0 # not sure if it can happens
return s
def applyCovering(self):
if self.app.covering.get() != 0:
#save a copy of txxxx before covering because we use it after synchro when Extend Chord is ON
self.nRootX = np.copy(self.app.tRootX)
self.nRootY = np.copy(self.app.tRootY)
self.nTipX = np.copy(self.app.tTipX)
self.nTipY = np.copy(self.app.tTipY)
self.app.tRootX, self.app.tRootY = self.applyOffset(
self.nRootX, self.nRootY, self.app.covering.get())
self.app.tTipX, self.app.tTipY = self.applyOffset(
self.nTipX, self.nTipY, self.app.covering.get())
def applyOffset(self, xN, yN, d):
line = LineString(self.merge(
xN, yN)) #create a linestring with a list of turple
offLine = line.parallel_offset(d,
side='right',
resolution=16,
join_style=2,
mitre_limit=5)
if "Multi" in str(type(offLine)):
offLineXY = offLine[0].xy #extract the coordinate
else:
offLineXY = offLine.xy #extract the coordinate
# there is a bug in the Offset function. With side = right, sequence is revered and have to be reversed afterward
return np.array(list(reversed(offLineXY[0]))), np.array(
list(reversed(offLineXY[1])))
def applyKeepChord(self):
if (self.app.keepChord.get() == 1) and (self.app.covering.get() != 0):
#insert first and last points before applying offset (reuse nxxxx saved before covering)
self.app.tRootX = np.insert(self.app.tRootX, 0, self.nRootX[0])
self.app.tRootX = np.append(self.app.tRootX, self.nRootX[-1])
self.app.tRootY = np.insert(self.app.tRootY, 0, self.nRootY[0])
self.app.tRootY = np.append(self.app.tRootY, self.nRootY[-1])
self.app.tTipX = np.insert(self.app.tTipX, 0, self.nTipX[0])
self.app.tTipX = np.append(self.app.tTipX, self.nTipX[-1])
self.app.tTipY = np.insert(self.app.tTipY, 0, self.nTipY[0])
self.app.tTipY = np.append(self.app.tTipY, self.nTipY[-1])
self.app.tRootS.insert(
0, 10) #insert a first point as synchro and No radiance
self.app.tRootS[
-1] = 10 # convert last point as synchro and No radiance
self.app.tRootS.append(4) #add a last point as synchro
self.app.tTipS.insert(
0, 10) #insert a first point as synchro and No radiance
self.app.tTipS[
-1] = 10 # convert last point as synchro and No radiance
self.app.tTipS.append(4) #add a last point as synchro
def changeNbrPoints(self, x, y):
xnew = []
ynew = []
if len(x) > 0:
# find the point with max X
maxX = np.max(x)
# find the index of this point
idxMax = np.where(x == maxX) #return an array with indexes
if len(idxMax) > 0 and len(idxMax[0]) > 0:
r = idxMax[0][0]
else:
r = 0 # not sure if it can happens
# split extrados / intrados in 2 lines
#print("r=",r)
#print("x,y", x, y)
eX = x[0:r + 1]
eY = y[0:r + 1]
iX = x[r:]
iY = y[r:]
#print("extrados avant=", eX, eY)
mytck, myu = interpolate.splprep([eX, eY], k=1, s=0)
arrayRepartition = np.linspace(0, 1,
int(self.app.nbrPoints.get() /
2))**self.app.repartition.get()
arrayRepartitionExt = (np.flip(arrayRepartition) * -1) + 1
eXnew, eYnew = interpolate.splev(arrayRepartitionExt, mytck)
#print("arrayRepartition ext",arrayRepartitionExt)
#print("extrados après", eXnew, eYnew)
#print("intrados avant=", iX, iY)
mytck, myu = interpolate.splprep([iX, iY], k=1, s=0)
arrayRepartition = np.linspace(0, 1,
int(self.app.nbrPoints.get() /
2))**self.app.repartition.get()
#print("arrayRepartition int",arrayRepartition)
#arrayRepartition = np.flip(arrayRepartition)
iXnew, iYnew = interpolate.splev(arrayRepartition, mytck)
#print("intrados après",self.printDistance(iXnew, iYnew))
xnew = np.concatenate([eXnew, iXnew[1:]])
ynew = np.concatenate([eYnew, iYnew[1:]])
#print("xy new=" , xnew , ynew)
return xnew, ynew
# change points repartition for extrados and then for intrados
# merge both
# add the first and last point if extend is selected
def printDistance(self, x, y):
imax = len(x)
i = 0
result = []
while i < imax - 1:
d1 = x[i + 1] - x[i]
d2 = y[i + 1] - y[i]
result.append(math.sqrt(d1 * d1 + d2 * d2))
i += 1
return result
def updatePlotRoot(self):
self.axesRoot.clear()
self.axesRoot.axis('equal')
self.lineRoot, = self.axesRoot.plot(self.app.tRootX,
self.app.tRootY,
color='red')
if self.displayPoints.get() == 1:
self.lineRoot, = self.axesRoot.plot(self.app.tRootX,
self.app.tRootY, 'ro')
self.canvasRoot.draw()
def updatePlotTip(self):
self.axesTip.clear()
self.axesTip.axis('equal')
self.axesTip.plot(self.app.tTipX, self.app.tTipY, color='blue')
if self.displayPoints.get() == 1:
self.axesTip.plot(self.app.tTipX, self.app.tTipY, 'bo')
self.canvasTip.draw()
def plotProfil(self):
self.figRoot = Figure(figsize=(10, 3), dpi=100)
self.axesRoot = self.figRoot.add_subplot(1, 1, 1)
self.axesRoot.axis('equal')
self.axesRoot.set_title('Root')
self.lineRoot, = self.axesRoot.plot(self.app.tRootX,
self.app.tRootY,
color='red')
self.canvasRoot = FigureCanvasTkAgg(
self.figRoot, master=self.frame) # A tk.DrawingArea.
self.canvasRoot.draw()
self.canvasRoot.get_tk_widget().grid(column=2,
rowspan=10,
row=0,
padx=(10, 2),
pady=(2, 2))
self.figTip = Figure(figsize=(10, 3), dpi=100)
self.axesTip = self.figTip.add_subplot(1, 1, 1)
self.axesTip.axis('equal')
self.axesTip.set_title('Tip')
self.lineTip, = self.axesTip.plot(self.app.tTipX,
self.app.tTipY,
color='blue')
self.canvasTip = FigureCanvasTkAgg(
self.figTip, master=self.frame) # A tk.DrawingArea.
self.canvasTip.draw()
self.canvasTip.get_tk_widget().grid(column=2,
rowspan=10,
row=10,
padx=(10, 2),
pady=(20, 2))
def merge(self, list1, list2):
merged_list = tuple(zip(list1, list2))
return merged_list
def unmerge(self, liste1):
result1 = []
result2 = []
for t in liste1:
result1.append(t[0])
result2.append(t[1])
return result1, result2
def distPoint2(self, x1, x2, x3, y1, y2, y3):
# calculate distance between point 2 and line 1-3
# returned value is the power of 2 of the distance (avoid a square root)
a = (x2 - x1) * (x2 - x1) + (y2 - y1) * (y2 - y1)
b = (x3 - x2) * (x3 - x2) + (y3 - y2) * (y3 - y2)
c = (x3 - x1) * (x3 - x1) + (y3 - y1) * (y3 - y1)
return a - (a * a + b * b + c * c + 2 *
(a * c - a * b - b * c)) / 4 / c
def lookNextPoint(self, x, y, idx, errorMax):
#look from idx up to max, for the next point to keep in order to keep the error less than a value
# return the last point where the error is lower
# if it is possible to go up to the end of the polyline, return the index of the last point
iMax = len(x)
i = idx + 2
while i < iMax:
j = idx + 1
while j < i:
h = self.distPoint2(x[idx], x[j], x[i], y[idx], y[j], y[i])
if h > errorMax:
#print("idex max" , j , i)
return i - 1
#print("idx, j , i ,h" , idx , j , i , h)
j += 1
i += 1
#print("fin de iterHauteur")
return iMax
def lookNextSynchro(self, s, idx):
#look from idx + 1 up to max, for the next synchro point
# if it is possible to go up to the end of the polyline, return the index of the last point
iMax = len(s)
i = idx + 1
while i < iMax:
if s[i] > 0:
return i
i += 1
return iMax
"""
def simplify(self, errorMax):
# remove points when a direct connection does not lead to to big error nor on Root nor on Tip
# Keep always first and last points
# Return the new Root and Tip in numpy arry
i = 0
errorMax2 = errorMax * errorMax #power of 2 because distance between points are calculated in power of 2
iMax = len(self.app.tRootX)
#always keep the first point
rX = [self.app.tRootX[0]]
rY = [self.app.tRootY[0]]
tX = [self.app.tTipX[0]]
tY = [self.app.tTipY[0]]
while i < iMax:
nextPointR = self.lookNextPoint(self.app.tRootX ,self.app.tRootY , i, errorMax2)
nextPointT = self.lookNextPoint(self.app.tTipX ,self.app.tTipY , i, errorMax2)
if nextPointR < nextPointT:
i = nextPointR
else:
i = nextPointT
if i < iMax: #add the point if we did not reach the end
rX.append(self.app.tRootX[i])
rY.append(self.app.tRootY[i])
tX.append(self.app.tTipX[i])
tY.append(self.app.tTipY[i])
#add the last point in all cases
rX.append(self.app.tRootX[iMax-1])
rY.append(self.app.tRootY[iMax-1])
tX.append(self.app.tTipX[iMax-1])
tY.append(self.app.tTipY[iMax-1])
return np.array(rX) , np.array(rY) , np.array(tX) , np.array(tY)
"""
def simplifyOneProfile(self, x, y, s, errorMax):
# remove points when a direct connection does not lead to to big error nor on Root nor on Tip
# Keep always first and last points and synchro points
# Return the new Root and Tip in numpy arry and new s in list
i = 0
errorMax2 = errorMax * errorMax #power of 2 because distance between points are calculated in power of 2
iMax = len(x)
rX = []
rY = []
rS = []
if iMax > 0:
#always keep the first point
rX.append(x[0])
rY.append(y[0])
rS.append(s[0])
while i < iMax:
nextPoint = self.lookNextPoint(x, y, i, errorMax2)
nextSynchro = self.lookNextSynchro(
s, i) #search next Synchro point
if nextPoint < nextSynchro:
i = nextPoint
else:
i = nextSynchro
if i < iMax: #add the point if we did not reach the end
rX.append(x[i])
rY.append(y[i])
rS.append(s[i])
#add the last point in all cases
#rX.append(x[iMax-1])
#rY.append(y[iMax-1])
#rS.append(s[iMax-1])
return np.array(rX), np.array(rY), rS