def on_button4_clicked(self, data):
#print("Button4", data,)
self.f1 = Figure(figsize=(5, 4), dpi=100)
self.a1 = self.f1.add_subplot(111)
x, y = predict.fit_company_change(2867)
#print(x, y)
predict.plotchange(self, list_all[3], x, y)
self.box3.remove(self.sw1)
self.canvas2 = FigureCanvas(self.f1) # a Gtk.DrawingArea
self.canvas2.set_size_request(400, 400)
self.sw1 = Gtk.ScrolledWindow()
self.sw1.add_with_viewport(self.canvas2)
self.sw1.set_border_width(10)
self.box3.pack_end(self.sw1, True, True, 0)
win.show_all()
pass
def __init__(self):
Gtk.Window.__init__(self, title="Stock_Predict")
a, self.Tindex, b = stk.csv_to_df(2330)
self.Tindex = np.array(self.Tindex)
self.box1 = Gtk.VBox(False, spacing=6)
self.add(self.box1)
self.box2 = Gtk.HBox(spacing=6)
self.box3 = Gtk.HBox(spacing=6)
self.box4 = Gtk.HBox(spacing=6)
self.box1.pack_start(self.box2, False, False, 2)
self.box1.pack_start(self.box3, True, True, 0)
self.box1.pack_start(self.box4, False, False, 0)
self.button1 = Gtk.Button(label="2337 : Macronix International")
self.button1.connect("clicked", self.on_button1_clicked)
self.box2.pack_start(self.button1, True, True, 2)
self.button2 = Gtk.Button(
label="2330 : Taiwan Semiconductor Manufacturing")
self.button2.connect("clicked", self.on_button2_clicked)
self.box2.pack_start(self.button2, True, True, 2)
self.button3 = Gtk.Button(label="6223 : MPI Corp")
self.button3.connect("clicked", self.on_button3_clicked)
self.box2.pack_start(self.button3, True, True, 2)
self.button4 = Gtk.Button(label="6220 : BonEagle Electric Co Ltd")
self.button4.connect("clicked", self.on_button4_clicked)
self.box2.pack_start(self.button4, True, True, 2)
# f2 block INDEX
self.f2 = Figure(figsize=(5, 4), dpi=100)
self.a2 = self.f2.add_subplot(111)
self.t2 = np.arange(0.0, 743, 1)
self.s2 = self.Tindex
self.a2.plot(self.t2, self.s2, zorder=3)
self.a2.set_title("TAIEX(Taipei)")
self.a2.set_ylabel("Score")
self.a2.set_xlabel("Days")
self.a2.grid()
# f1 block predict
self.f1 = Figure(figsize=(5, 4), dpi=100)
self.a1 = self.f1.add_subplot(111)
#self.t1 = np.arange(0.0, 3.0, 0.01)
#self.s1 = np.sin(2 * np.pi * self.t1)
x, y = predict.fit_company_change(2337)
#print(x, y)
predict.plotchange(self, list_all[0], x, y)
#self.a1.plot(self.t1, self.s1, zorder=3)
self.a1.grid()
self.sw1 = Gtk.ScrolledWindow()
self.sw1.set_border_width(10)
self.box3.pack_start(self.sw1, True, True, 0)
self.canvas1 = FigureCanvas(self.f1) # a Gtk.DrawingArea
self.canvas1.set_size_request(400, 400)
self.sw1.add_with_viewport(self.canvas1)
self.sw2 = Gtk.ScrolledWindow()
self.sw2.set_border_width(10)
self.box3.pack_start(self.sw2, True, True, 0)
self.canvas2 = FigureCanvas(self.f2) # a Gtk.DrawingArea
self.canvas2.set_size_request(400, 400)
self.sw2.add_with_viewport(self.canvas2)
# A scrolled window border goes outside the scrollbars and viewport
pass