Geant4_10
emcalc_gui.py
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1 #!/usr/bin/env python
2 # -*- coding:utf-8 -*-
3 
4 # ==================================================================
5 # EM Calculator (GTK)
6 #
7 # Koichi Murakami (KEK/CRC)
8 # ==================================================================
9 from Geant4 import *
10 import g4py.ExN03pl
11 import g4py.emcalculator
12 import EmPlot
13 import ROOT
14 import sys
15 from cStringIO import StringIO
16 
17 # ==================================================================
18 # Geant4
19 # ==================================================================
20 def g4_configure() :
22  g4py.ExN03pl.Construct()
23 
24 # -------------------------------------------------------------------
25 # plot for chaged particles
26 # -------------------------------------------------------------------
27 def plot_charged(material, pname) :
28  EmPlot.SetMaterial(material)
29 
30  # initialize G4 kernel
31  gRunManager.Initialize()
32  gRunManagerKernel.RunInitialization()
33 
34  # energy
35  elist= []
36  for n in range(-3, 3):
37  for i in range(10,99):
38  elist.append(i/10.*10.**n *MeV)
39 
40  # calculate stopping power
41  global mycout
42  mycout.close()
43  sys.stdout = mycout = StringIO()
44  dedx_list= g4py.emcalculator.CalculateDEDX(pname, material, elist, 1)
45  xlist_tot=[]
46  xlist_ioni=[]
47  xlist_brems=[]
48 
49  for x in dedx_list:
50  xlist_tot.append((x[0], x[1]["tot"]/(MeV*cm2/g)))
51  xlist_ioni.append((x[0], x[1]["ioni"]/(MeV*cm2/g)))
52  xlist_brems.append((x[0], x[1]["brems"]/(MeV*cm2/g)))
53 
54  # make plot
55  global myCanvas, aplot, bplot, cplot
56  myCanvas = EmPlot.init_root()
57  aplot = EmPlot.make_plot(xlist_tot, pname+" Stopping Power ("+material+")",
58  "dE/dX (MeV cm^{2}/g)")
59  bplot = EmPlot.make_plot(xlist_ioni, "Stopping Power ("+material+")",
60  "dE/dX (MeV cm^{2}/g)", 1)
61  cplot = EmPlot.make_plot(xlist_brems, "Stopping Power ("+material+")",
62  "dE/dX (MeV cm^{2}/g)", 3)
63  myCanvas.SaveAs("/tmp/sp.png")
64 
65 
66 # -------------------------------------------------------------------
67 # plot for gamma
68 # -------------------------------------------------------------------
69 def plot_gamma(material) :
70  EmPlot.SetMaterial(material)
71 
72  # initialize G4 kernel
73  gRunManager.Initialize()
74  gRunManagerKernel.RunInitialization()
75 
76  # energy
77  elist= []
78  for n in range(-3, 4):
79  for i in range(10,99):
80  elist.append(i/10.*10.**n *MeV)
81 
82  # calculate cross sections
83  global mycout
84  mycout.close()
85  sys.stdout = mycout = StringIO()
86  xsection_list= g4py.emcalculator.CalculatePhotonCrossSection(material,
87  elist, 1)
88  xlist_tot=[]
89  xlist_comp=[]
90  xlist_pe=[]
91  xlist_conv=[]
92  for x in xsection_list:
93  xlist_tot.append((x[0]/MeV, x[1]["tot"]/(cm2/g)))
94  xlist_comp.append((x[0]/MeV, x[1]["compt"]/(cm2/g)))
95  xlist_pe.append((x[0]/MeV, x[1]["phot"]/(cm2/g)))
96  xlist_conv.append((x[0]/MeV, x[1]["conv"]/(cm2/g)))
97 
98  # make plots
99  global myCanvas, aplot, bplot, cplot, dplot
100  myCanvas = EmPlot.init_root()
101  aplot = EmPlot.make_plot(xlist_tot, "Photon Cross Section ("+material+")",
102  "Cross Section (cm^{2}/g)")
103  bplo = EmPlot.make_plot(xlist_comp, "Photon Cross Section ("+material+")",
104  "Cross Section (cm^{2}/g)", 1)
105  cplot = EmPlot.make_plot(xlist_pe, "Photon Cross Section ("+material+")",
106  "Cross Section (cm^{2}/g)", 7)
107  dplot = EmPlot.make_plot(xlist_conv, "Photon Cross Section ("+material+")",
108  "Cross Section (cm^{2}/g)", 3)
109  myCanvas.SaveAs("/tmp/cs.png")
110 
111 
112 # ==================================================================
113 # GUI
114 # ==================================================================
115 import pygtk
116 pygtk.require20()
117 import gtk
118 
119 # -------------------------------------------------------------------
120 # main window
121 # -------------------------------------------------------------------
122 class MainWindow :
123  def __init__(self) :
124  self.__margin = 8
125 
126  # main window
127  self.mainwindow = gtk.Window(gtk.WINDOW_TOPLEVEL)
128  self.mainwindow.set_title('Em Calculator')
129  self.mainwindow.set_position(gtk.WIN_POS_MOUSE)
130  self.mainwindow.set_default_size(500, 300)
131  self.mainwindow.connect('delete-event', lambda w,d: gtk.main_quit())
132  self.mainwindow.connect('destroy-event',lambda w,d: gtk.main_quit())
133 
134  # components
135  header = self.create_header()
136 
137  particle_frame = self.create_particle_frame()
138  particle_frame.set_border_width(self.__margin)
139 
140  material_frame = self.create_material_frame()
141  material_frame.set_border_width(self.__margin)
142 
143  separator = gtk.HSeparator()
144 
145  action_box = self.create_action_box()
146  action_box.set_border_width(self.__margin)
147 
148  # layout
149  vbox = gtk.VBox()
150  vbox.pack_start(header)
151  vbox.pack_start(particle_frame)
152  vbox.pack_start(material_frame)
153  vbox.pack_start(separator)
154  vbox.pack_start(action_box)
155 
156  self.mainwindow.add(vbox)
157  self.mainwindow.show_all()
158 
159  # text view
161 
162  # error dialog
163  self.error_dialog = gtk.MessageDialog(parent=self.mainwindow,
164  buttons=gtk.BUTTONS_CLOSE, type=gtk.MESSAGE_ERROR,
165  message_format="Material is not defined in G4Nist materials")
166  self.error_dialog.connect("response", self.cb_close_dialog)
167 
168  def create_header(self) :
169  hbox = gtk.HBox()
170 
171  label = gtk.Label()
172  label.set_markup("<big><b>EM Calculator</b></big>")
173  hbox.pack_start(label)
174 
175  label = gtk.Label()
176  text = """
177 
178 Shows
179  - stopping power for e/mu/proton
180  - cross sections for gamma
181 """
182  label.set_markup(text)
183  hbox.pack_start(label)
184 
185  return hbox
186 
188  frame = gtk.Frame("Particle")
189 
190  hbox = gtk.HBox()
191  frame.add(hbox)
192  hbox.set_border_width(self.__margin)
193 
194  button = gtk.RadioButton(None, "electron")
195  button.connect("toggled", self.cb_select_particle, "e-")
196  hbox.pack_start(button, True, True, 0)
197  button.show()
198  self.particle = "e-"
199 
200  button = gtk.RadioButton(button, "positron")
201  button.connect("toggled", self.cb_select_particle, "e+")
202  hbox.pack_start(button, True, True, 0)
203  button.show()
204 
205  button = gtk.RadioButton(button, "mu-")
206  button.connect("toggled", self.cb_select_particle, "mu-")
207  hbox.pack_start(button, True, True, 0)
208  button.show()
209 
210  button = gtk.RadioButton(button, "mu+")
211  button.connect("toggled", self.cb_select_particle, "mu+")
212  hbox.pack_start(button, True, True, 0)
213  button.show()
214 
215  button = gtk.RadioButton(button, "proton")
216  button.connect("toggled", self.cb_select_particle, "proton")
217  hbox.pack_start(button, True, True, 0)
218  button.show()
219 
220  button = gtk.RadioButton(button, "gamma")
221  button.connect("toggled", self.cb_select_particle, "gamma")
222  hbox.pack_start(button, True, True, 0)
223  button.show()
224 
225  return frame
226 
228  frame = gtk.Frame("Material (G4Nist)")
229 
230  hbox = gtk.HBox()
231  frame.add(hbox)
232  hbox.set_border_width(self.__margin)
233 
234  self.material_list = [ "G4_Al", "G4_Si", "G4_Ar", "G4_Cu", "G4_Fe",
235  "G4_Ge", "G4_Ag", "G4_W", "G4_Au", "G4_Pb",
236  "G4_AIR", "G4_Galactic", "G4_WATER", "G4_CESIUM_IODIDE",
237  "G4_SODIUM_IODIDE", "G4_PLASTIC_SC_VINYLTOLUENE",
238  "G4_MYLAR" ]
239 
240  self.material_combo = gtk.combo_box_entry_new_text()
241  hbox.pack_start(self.material_combo)
242  for name in self.material_list :
243  self.material_combo.append_text(name)
244  self.material_combo.set_active(0)
245  self.material = self.material_list[0]
246  self.material_combo.connect("changed", self.cb_select_material)
247 
248  return frame
249 
250  def create_action_box(self) :
251  box = gtk.HButtonBox()
252  box.set_layout(gtk.BUTTONBOX_END)
253  box.set_spacing(self.__margin)
254 
255  exec_button = gtk.Button(stock = gtk.STOCK_EXECUTE)
256  text_button = gtk.Button("Text View")
257  quit_button = gtk.Button(stock = gtk.STOCK_QUIT)
258  box.add(exec_button)
259  box.add(text_button)
260  box.add(quit_button)
261 
262  exec_button.connect("clicked", self.cb_show_plot)
263  text_button.connect("clicked", self.cb_show_textview)
264  quit_button.connect("clicked", lambda w: gtk.main_quit())
265 
266  return box
267 
268  # callbacks
269  def cb_show_textview(self, widget, data=None) :
270  window = self.textview.get_window()
271  window.show_all()
272 
273  def cb_select_particle(self, widget, data=None) :
274  self.particle = data
275 
276  def cb_select_material(self, widget, data=None) :
277  entry = widget.get_child()
278  self.material = entry.get_text()
279 
280  def cb_show_plot(self, widget, data=None) :
281  g4mate = gNistManager.FindOrBuildMaterial(self.material)
282  if (g4mate == None) :
283  self.error_dialog.show_all()
284  return
285 
286  if (self.material_list.count(self.material) == 0) :
287  self.material_combo.append_text(self.material)
288 
289  if (self.particle == "gamma" ) :
290  plot_gamma(self.material)
291  else :
292  plot_charged(self.material, self.particle)
293  self.textview.textbuffer.set_text(mycout.getvalue())
294 
295  def cb_close_dialog(self, widget, data=None) :
296  widget.hide_all()
297 
298 
299 # -------------------------------------------------------------------
300 # text view
301 # -------------------------------------------------------------------
302 class TextView :
303  def __init__(self) :
304  self.__margin = 8
305  self.text_window = gtk.Window(gtk.WINDOW_TOPLEVEL)
306  self.text_window.set_title('Value with Text')
307  self.text_window.set_position(gtk.WIN_POS_MOUSE)
308  self.text_window.set_default_size(500, 300)
309 
310  vbox = gtk.VBox()
311  self.text_window.add(vbox)
312 
313  sw = gtk.ScrolledWindow()
314  sw.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC)
315  sw.set_border_width(self.__margin)
316  vbox.pack_start(sw)
317 
318  textview = gtk.TextView()
319  self.textbuffer = textview.get_buffer()
320  sw.add(textview)
321 
322  hbox = gtk.HButtonBox()
323  hbox.set_layout(gtk.BUTTONBOX_END)
324  hbox.set_border_width(self.__margin)
325  vbox.pack_start(hbox, expand=False)
326 
327  close_button = gtk.Button(stock = gtk.STOCK_CLOSE)
328  close_button.connect("clicked", self.cb_hide_window)
329  hbox.add(close_button)
330 
331  def get_window(self) :
332  return self.text_window
333 
334  def cb_hide_window(self, widget, data=None) :
335  self.text_window.hide_all()
336  return False
337 
338 
339 # ==================================================================
340 # main
341 # ==================================================================
342 def main() :
344 
345  default_stdout = sys.stdout
346  global mycout
347  sys.stdout = mycout = StringIO()
348 
349  # G4 setup
350  g4_configure()
351 
352  # start GUI
353  application = MainWindow()
354  gtk.main()
355 
356  gTerminate()
357  sys.stdout = default_stdout
358 
359 
360 if __name__ == "__main__":
361  try :
362  main()
363  except KeyboardInterrupt :
364  pass
def init_root
Definition: EmPlot.py:58
def Configure
Definition: EmPlot.py:18
def make_plot
Definition: EmPlot.py:84
const G4ParticleDefinition const G4Material *G4double range
def SetMaterial
Definition: EmPlot.py:25
def plot_gamma
Definition: emcalc_gui.py:69
def g4_configure
Definition: emcalc_gui.py:20
def plot_charged
Definition: emcalc_gui.py:27
void SetG4PyCoutDestination()
Definition: pyglobals.cc:50
def gTerminate
Definition: __init__.py:224