def __init__(self, parent, data=None, lines=None, ubis=None, image=None, pars=None, spline=None): """ Data would be your observed g-vectors. Lines will be a computed lattice """ Tk.Toplevel.__init__(self, parent) self.parent = parent if data != None: xyz = data.copy() else: xyz = numpy.array([0, 0, 0]) self.ps = Tk.StringVar() self.ps.set('1.') self.pointsize = 1. self.npeaks = xyz.shape[0] self.o = myOpengl(self, width=400, height=400, double=1) self.o.redraw = self.redraw self.o.autospin_allowed = 1 self.o.fovy = 5 self.o.near = 1e6 self.o.far = 1e-6 import math self.o.distance = 3. #numpy.maximum.reduce(numpy.ravel(xyz))*4 / \ # math.tan(self.o.fovy*math.pi/180) print(type(xyz), xyz.dtype.char, xyz.shape) self.xyz = xyz f = Tk.Frame(self) Tk.Button(f, text="Help", command=self.o.help).pack(side=Tk.LEFT) Tk.Button(f, text="Reset", command=self.o.reset).pack(side=Tk.LEFT) Tk.Button(f, text="Pointsize", command=self.setps).pack(side=Tk.LEFT) Tk.Entry(f, textvariable=self.ps).pack(side=Tk.LEFT) Tk.Button(f, text="Quit", command=self.goaway).pack(side=Tk.RIGHT) self.dataoff = 0 self.o.pack(side='top', expand=1, fill='both') f.pack(side=Tk.BOTTOM, expand=Tk.NO, fill=Tk.X) Tk.Label(self, text="Red=[1,0,0] Green=[0,1,0] Blue=[0,0,1]").pack( side=Tk.BOTTOM, expand=Tk.NO, fill=Tk.X) self.ubis = ubis self.color = numpy.ones((xyz.shape[0], 3), numpy.float) print(self.color.shape) self.tex = False if ubis is not None: self.ubis = self.readubis(ubis) self.scorecolor(0) if pars is not None: self.tex = True self.readspline(spline) self.readprms(pars) self.readimage(image) self.changedata(xyz)
def __init__(self, master): self.master = master self.frame = Tk.Frame(self.master) self.quitButton = Tk.Button(self.frame, text='Quit', width=25, command=self.close_windows) self.quitButton.pack() self.frame.pack()