1 | # pylint: disable=attribute-defined-outside-init |
---|
2 | """ |
---|
3 | This software was developed by the University of Tennessee as part of the |
---|
4 | Distributed Data Analysis of Neutron Scattering Experiments (DANSE) |
---|
5 | project funded by the US National Science Foundation. |
---|
6 | |
---|
7 | See the license text in license.txt |
---|
8 | |
---|
9 | copyright 2008, 2009, 2010 University of Tennessee |
---|
10 | """ |
---|
11 | import wx |
---|
12 | import sys |
---|
13 | import os |
---|
14 | import matplotlib |
---|
15 | import math |
---|
16 | import logging |
---|
17 | #Use the WxAgg back end. The Wx one takes too long to render |
---|
18 | matplotlib.use('WXAgg') |
---|
19 | from matplotlib.backends.backend_wxagg import FigureCanvasWxAgg as FigureCanvas |
---|
20 | from matplotlib.backends.backend_wxagg import NavigationToolbar2Wx as Toolbar |
---|
21 | from matplotlib.backend_bases import FigureManagerBase |
---|
22 | # Wx-Pylab magic for displaying plots within an application's window. |
---|
23 | from matplotlib import _pylab_helpers |
---|
24 | # The Figure object is used to create backend-independent plot representations. |
---|
25 | from matplotlib.figure import Figure |
---|
26 | |
---|
27 | #from sas.guicomm.events import StatusEvent |
---|
28 | from sas.sascalc.calculator.resolution_calculator import ResolutionCalculator |
---|
29 | from sas.sasgui.guiframe.events import StatusEvent |
---|
30 | from sas.sasgui.perspectives.calculator.calculator_widgets import OutputTextCtrl |
---|
31 | from sas.sasgui.perspectives.calculator.calculator_widgets import InputTextCtrl |
---|
32 | from wx.lib.scrolledpanel import ScrolledPanel |
---|
33 | from math import fabs |
---|
34 | from sas.sasgui.perspectives.calculator import calculator_widgets as widget |
---|
35 | from sas.sasgui.guiframe.documentation_window import DocumentationWindow |
---|
36 | |
---|
37 | logger = logging.getLogger(__name__) |
---|
38 | |
---|
39 | _BOX_WIDTH = 100 |
---|
40 | _Q_DEFAULT = 0.0 |
---|
41 | #Slit length panel size |
---|
42 | if sys.platform.count("win32") > 0: |
---|
43 | PANEL_TOP = 0 |
---|
44 | PANEL_WIDTH = 525 |
---|
45 | PANEL_HEIGHT = 653 |
---|
46 | FONT_VARIANT = 0 |
---|
47 | IS_WIN = True |
---|
48 | else: |
---|
49 | PANEL_TOP = 60 |
---|
50 | PANEL_WIDTH = 540 |
---|
51 | PANEL_HEIGHT = 662 |
---|
52 | FONT_VARIANT = 1 |
---|
53 | IS_WIN = False |
---|
54 | |
---|
55 | _SOURCE_MASS = {'Alpha':6.64465620E-24, |
---|
56 | 'Deuteron':3.34358320E-24, |
---|
57 | 'Neutron':1.67492729E-24, |
---|
58 | 'Photon': 0.0, |
---|
59 | 'Proton':1.67262137E-24, |
---|
60 | 'Triton':5.00826667E-24} |
---|
61 | |
---|
62 | class ResolutionCalculatorPanel(ScrolledPanel): |
---|
63 | """ |
---|
64 | Provides the Resolution calculator GUI. |
---|
65 | """ |
---|
66 | ## Internal nickname for the window, used by the AUI manager |
---|
67 | window_name = "Q Resolution Estimator" |
---|
68 | ## Name to appear on the window title bar |
---|
69 | window_caption = "" |
---|
70 | ## Flag to tell the AUI manager to put this panel in the center pane |
---|
71 | CENTER_PANE = True |
---|
72 | |
---|
73 | def __init__(self, parent, *args, **kwds): |
---|
74 | kwds["size"] = (PANEL_WIDTH * 2, PANEL_HEIGHT) |
---|
75 | kwds["style"] = wx.FULL_REPAINT_ON_RESIZE |
---|
76 | ScrolledPanel.__init__(self, parent, *args, **kwds) |
---|
77 | self.SetupScrolling() |
---|
78 | self.parent = parent |
---|
79 | |
---|
80 | # input defaults |
---|
81 | self.qx = [] |
---|
82 | self.qy = [] |
---|
83 | # dQ defaults |
---|
84 | self.sigma_r = None |
---|
85 | self.sigma_phi = None |
---|
86 | self.sigma_1d = None |
---|
87 | # monchromatic or polychromatic |
---|
88 | self.wave_color = 'mono' |
---|
89 | self.num_wave = 10 |
---|
90 | self.spectrum_dic = {} |
---|
91 | # dQ 2d image |
---|
92 | self.image = None |
---|
93 | # results of sigmas |
---|
94 | self.sigma_strings = ' ' |
---|
95 | #Font size |
---|
96 | self.SetWindowVariant(variant=FONT_VARIANT) |
---|
97 | # Object that receive status event |
---|
98 | self.resolution = ResolutionCalculator() |
---|
99 | # Source selection dic |
---|
100 | self.source_mass = _SOURCE_MASS |
---|
101 | #layout attribute |
---|
102 | self.hint_sizer = None |
---|
103 | # detector coordinate of estimation of sigmas |
---|
104 | self.det_coordinate = 'cartesian' |
---|
105 | self.source_cb = None |
---|
106 | self._do_layout() |
---|
107 | |
---|
108 | def _define_structure(self): |
---|
109 | """ |
---|
110 | Define the main sizers building to build this application. |
---|
111 | """ |
---|
112 | self.main_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
113 | self.vertical_l_sizer = wx.BoxSizer(wx.VERTICAL) |
---|
114 | self.vertical_r_spacer = wx.BoxSizer(wx.VERTICAL) |
---|
115 | self.vertical_r_frame = wx.StaticBox(self, -1, '') |
---|
116 | self.vertical_r_sizer = wx.StaticBoxSizer(self.vertical_r_frame, |
---|
117 | wx.VERTICAL) |
---|
118 | self.box_source = wx.StaticBox(self, -1, str(self.window_caption)) |
---|
119 | self.boxsizer_source = wx.StaticBoxSizer(self.box_source, wx.VERTICAL) |
---|
120 | self.mass_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
121 | self.intensity_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
122 | self.wavelength_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
123 | self.wavelength_spread_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
124 | self.source_aperture_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
125 | self.sample_aperture_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
126 | self.source2sample_distance_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
127 | self.sample2sample_distance_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
128 | self.sample2detector_distance_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
129 | self.detector_size_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
130 | self.detector_pix_size_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
131 | self.input_sizer = wx.BoxSizer(wx.VERTICAL) |
---|
132 | self.output_sizer = wx.BoxSizer(wx.VERTICAL) |
---|
133 | self.hint_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
134 | self.button_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
135 | |
---|
136 | def _layout_mass(self): |
---|
137 | """ |
---|
138 | Fill the sizer containing mass |
---|
139 | """ |
---|
140 | # get the mass |
---|
141 | mass_value = str(self.resolution.mass) |
---|
142 | self.mass_txt = wx.StaticText(self, -1, 'Source: ') |
---|
143 | self.mass_hint = "Mass of Neutrons m = %s [g]" % str(self.resolution.mass) |
---|
144 | self.source_cb = wx.ComboBox(self, -1, |
---|
145 | style=wx.CB_READONLY, |
---|
146 | name='%s' % mass_value) |
---|
147 | # Sort source name because wx2.9 on Mac does not support CB_SORT |
---|
148 | # Custom sorting |
---|
149 | source_list = [] |
---|
150 | for key, _ in self.source_mass.iteritems(): |
---|
151 | name_source = str(key) |
---|
152 | source_list.append(name_source) |
---|
153 | source_list.sort() |
---|
154 | for idx in range(len(source_list)): |
---|
155 | self.source_cb.Append(source_list[idx], idx) |
---|
156 | self.source_cb.SetStringSelection("Neutron") |
---|
157 | wx.EVT_COMBOBOX(self.source_cb, -1, self._on_source_selection) |
---|
158 | |
---|
159 | # combo box for color |
---|
160 | self.wave_color_cb = wx.ComboBox(self, -1, |
---|
161 | style=wx.CB_READONLY, |
---|
162 | name='color') |
---|
163 | # two choices |
---|
164 | self.wave_color_cb.Append('Monochromatic') |
---|
165 | self.wave_color_cb.Append('TOF') |
---|
166 | self.wave_color_cb.SetStringSelection("Monochromatic") |
---|
167 | wx.EVT_COMBOBOX(self.wave_color_cb, -1, self._on_source_color) |
---|
168 | |
---|
169 | source_hint = "Source Selection: Affect on" |
---|
170 | source_hint += " the gravitational contribution.\n" |
---|
171 | source_hint += "Mass of %s: m = %s [g]" % \ |
---|
172 | ('Neutron', str(self.resolution.mass)) |
---|
173 | self.mass_txt.SetToolTipString(source_hint) |
---|
174 | self.mass_sizer.AddMany([(self.mass_txt, 0, wx.LEFT, 15), |
---|
175 | (self.source_cb, 0, wx.LEFT, 15), |
---|
176 | (self.wave_color_cb, 0, wx.LEFT, 15)]) |
---|
177 | |
---|
178 | def _layout_intensity(self): |
---|
179 | """ |
---|
180 | Fill the sizer containing intensity |
---|
181 | """ |
---|
182 | # get the intensity |
---|
183 | intensity_value = str(self.resolution.intensity) |
---|
184 | intensity_unit_txt = wx.StaticText(self, -1, '[counts/s]') |
---|
185 | intensity_txt = wx.StaticText(self, -1, 'Intensity: ') |
---|
186 | self.intensity_tcl = InputTextCtrl(self, -1, |
---|
187 | size=(_BOX_WIDTH, -1)) |
---|
188 | intensity_hint = "Intensity of Neutrons" |
---|
189 | self.intensity_tcl.SetValue(intensity_value) |
---|
190 | self.intensity_tcl.SetToolTipString(intensity_hint) |
---|
191 | self.intensity_sizer.AddMany([(intensity_txt, 0, wx.LEFT, 15), |
---|
192 | (self.intensity_tcl, 0, wx.LEFT, 15), |
---|
193 | (intensity_unit_txt, 0, wx.LEFT, 10)]) |
---|
194 | |
---|
195 | |
---|
196 | def _layout_wavelength(self): |
---|
197 | """ |
---|
198 | Fill the sizer containing wavelength |
---|
199 | """ |
---|
200 | # get the wavelength |
---|
201 | wavelength_value = str(self.resolution.get_wavelength()) |
---|
202 | wavelength_unit_txt = wx.StaticText(self, -1, '[A]') |
---|
203 | wavelength_txt = wx.StaticText(self, -1, 'Wavelength: ') |
---|
204 | self.wavelength_tcl = InputTextCtrl(self, -1, |
---|
205 | size=(_BOX_WIDTH, -1)) |
---|
206 | wavelength_hint = "Wavelength of Neutrons" |
---|
207 | self.wavelength_tcl.SetValue(wavelength_value) |
---|
208 | self.wavelength_tcl.SetToolTipString(wavelength_hint) |
---|
209 | |
---|
210 | # get the spectrum |
---|
211 | spectrum_value = self.resolution.get_default_spectrum() |
---|
212 | self.spectrum_dic['Add new'] = '' |
---|
213 | self.spectrum_dic['Flat'] = spectrum_value |
---|
214 | |
---|
215 | self.spectrum_txt = wx.StaticText(self, -1, 'Spectrum: ') |
---|
216 | self.spectrum_cb = wx.ComboBox(self, -1, |
---|
217 | style=wx.CB_READONLY, |
---|
218 | size=(_BOX_WIDTH, -1), |
---|
219 | name='spectrum') |
---|
220 | self.spectrum_cb.Append('Add new') |
---|
221 | self.spectrum_cb.Append('Flat') |
---|
222 | wx.EVT_COMBOBOX(self.spectrum_cb, -1, self._on_spectrum_cb) |
---|
223 | spectrum_hint = "Wavelength Spectrum: Intensity vs. wavelength" |
---|
224 | self.spectrum_cb.SetStringSelection('Flat') |
---|
225 | self.spectrum_cb.SetToolTipString(spectrum_hint) |
---|
226 | self.wavelength_sizer.AddMany([(wavelength_txt, 0, wx.LEFT, 15), |
---|
227 | (self.wavelength_tcl, 0, wx.LEFT, 5), |
---|
228 | (wavelength_unit_txt, 0, wx.LEFT, 5), |
---|
229 | (self.spectrum_txt, 0, wx.LEFT, 20), |
---|
230 | (self.spectrum_cb, 0, wx.LEFT, 5)]) |
---|
231 | self.spectrum_txt.Show(False) |
---|
232 | self.spectrum_cb.Show(False) |
---|
233 | |
---|
234 | def _layout_wavelength_spread(self): |
---|
235 | """ |
---|
236 | Fill the sizer containing wavelength |
---|
237 | """ |
---|
238 | # get the wavelength |
---|
239 | wavelength_spread_value = str(self.resolution.get_wavelength_spread()) |
---|
240 | wavelength_spread_unit_txt = wx.StaticText(self, -1, '') |
---|
241 | wavelength_spread_txt = wx.StaticText(self, -1, 'Wavelength Spread: ') |
---|
242 | self.wavelength_spread_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
243 | wavelength_spread_hint = "Wavelength Spread of Neutrons" |
---|
244 | self.wavelength_spread_tcl.SetValue(wavelength_spread_value) |
---|
245 | self.wavelength_spread_tcl.SetToolTipString(wavelength_spread_hint) |
---|
246 | self.wavelength_spread_sizer.AddMany([(wavelength_spread_txt, 0, |
---|
247 | wx.LEFT, 15), |
---|
248 | (self.wavelength_spread_tcl, 0, wx.LEFT, 15), |
---|
249 | (wavelength_spread_unit_txt, 0, wx.LEFT, 10)]) |
---|
250 | |
---|
251 | |
---|
252 | def _layout_source_aperture(self): |
---|
253 | """ |
---|
254 | Fill the sizer containing source aperture size |
---|
255 | """ |
---|
256 | # get the wavelength |
---|
257 | source_aperture_value = str(self.resolution.source_aperture_size[0]) |
---|
258 | if len(self.resolution.source_aperture_size) > 1: |
---|
259 | source_aperture_value += ", " |
---|
260 | source_aperture_value += str(self.resolution.source_aperture_size[1]) |
---|
261 | source_aperture_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
262 | source_aperture_txt = wx.StaticText(self, -1, 'Source Aperture Size: ') |
---|
263 | self.source_aperture_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
264 | source_aperture_hint = "Source Aperture Size" |
---|
265 | self.source_aperture_tcl.SetValue(source_aperture_value) |
---|
266 | self.source_aperture_tcl.SetToolTipString(source_aperture_hint) |
---|
267 | self.source_aperture_sizer.AddMany([(source_aperture_txt, 0, wx.LEFT, 15), |
---|
268 | (self.source_aperture_tcl, 0, wx.LEFT, 15), |
---|
269 | (source_aperture_unit_txt, 0, wx.LEFT, 10)]) |
---|
270 | |
---|
271 | def _layout_sample_aperture(self): |
---|
272 | """ |
---|
273 | Fill the sizer containing sample aperture size |
---|
274 | """ |
---|
275 | # get the wavelength |
---|
276 | sample_aperture_value = str(self.resolution.sample_aperture_size[0]) |
---|
277 | if len(self.resolution.sample_aperture_size) > 1: |
---|
278 | sample_aperture_value += ", " |
---|
279 | sample_aperture_value += str(self.resolution.sample_aperture_size[1]) |
---|
280 | sample_aperture_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
281 | sample_aperture_txt = wx.StaticText(self, -1, 'Sample Aperture Size: ') |
---|
282 | self.sample_aperture_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
283 | sample_aperture_hint = "Sample Aperture Size" |
---|
284 | self.sample_aperture_tcl.SetValue(sample_aperture_value) |
---|
285 | self.sample_aperture_tcl.SetToolTipString(sample_aperture_hint) |
---|
286 | self.sample_aperture_sizer.AddMany([(sample_aperture_txt, 0, wx.LEFT, 15), |
---|
287 | (self.sample_aperture_tcl, 0, wx.LEFT, 15), |
---|
288 | (sample_aperture_unit_txt, 0, wx.LEFT, 10)]) |
---|
289 | |
---|
290 | def _layout_source2sample_distance(self): |
---|
291 | """ |
---|
292 | Fill the sizer containing souce2sample_distance |
---|
293 | """ |
---|
294 | # get the wavelength |
---|
295 | source2sample_distance_value = str(self.resolution.source2sample_distance[0]) |
---|
296 | |
---|
297 | source2sample_distance_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
298 | source2sample_distance_txt = wx.StaticText(self, -1, |
---|
299 | 'Source to Sample Aperture Distance: ') |
---|
300 | self.source2sample_distance_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
301 | source2sample_distance_hint = "Source to Sample Aperture Distance" |
---|
302 | self.source2sample_distance_tcl.SetValue(source2sample_distance_value) |
---|
303 | self.source2sample_distance_tcl.SetToolTipString(source2sample_distance_hint) |
---|
304 | self.source2sample_distance_sizer.AddMany([(source2sample_distance_txt, 0, wx.LEFT, 15), |
---|
305 | (self.source2sample_distance_tcl, 0, wx.LEFT, 15), |
---|
306 | (source2sample_distance_unit_txt, 0, wx.LEFT, 10)]) |
---|
307 | |
---|
308 | def _layout_sample2sample_distance(self): |
---|
309 | """ |
---|
310 | Fill the sizer containing sampleslit2sample_distance |
---|
311 | """ |
---|
312 | # get the distance |
---|
313 | sample2sample_distance_value = str(self.resolution.sample2sample_distance[0]) |
---|
314 | |
---|
315 | sample2sample_distance_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
316 | sample2sample_distance_txt = wx.StaticText(self, -1, 'Sample Offset: ') |
---|
317 | self.sample2sample_distance_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
318 | sample2sample_distance_hint = "Sample Aperture to Sample Distance" |
---|
319 | self.sample2sample_distance_tcl.SetValue(sample2sample_distance_value) |
---|
320 | self.sample2sample_distance_tcl.SetToolTipString(sample2sample_distance_hint) |
---|
321 | self.sample2sample_distance_sizer.AddMany([(sample2sample_distance_txt, 0, wx.LEFT, 15), |
---|
322 | (self.sample2sample_distance_tcl, 0, wx.LEFT, 15), |
---|
323 | (sample2sample_distance_unit_txt, 0, wx.LEFT, 10)]) |
---|
324 | |
---|
325 | def _layout_sample2detector_distance(self): |
---|
326 | """ |
---|
327 | Fill the sizer containing sample2detector_distance |
---|
328 | """ |
---|
329 | # get the wavelength |
---|
330 | sample2detector_distance_value = str(self.resolution.sample2detector_distance[0]) |
---|
331 | |
---|
332 | sample2detector_distance_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
333 | sample2detector_distance_txt = wx.StaticText(self, -1, |
---|
334 | 'Sample Aperture to Detector Distance: ') |
---|
335 | self.sample2detector_distance_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
336 | sample2detector_distance_hint = "Sample Aperture to Detector Distance" |
---|
337 | self.sample2detector_distance_tcl.SetValue(sample2detector_distance_value) |
---|
338 | self.sample2detector_distance_tcl.SetToolTipString(sample2detector_distance_hint) |
---|
339 | self.sample2detector_distance_sizer.AddMany([\ |
---|
340 | (sample2detector_distance_txt, 0, wx.LEFT, 15), |
---|
341 | (self.sample2detector_distance_tcl, 0, wx.LEFT, 15), |
---|
342 | (sample2detector_distance_unit_txt, 0, wx.LEFT, 10)]) |
---|
343 | |
---|
344 | def _layout_detector_size(self): |
---|
345 | """ |
---|
346 | Fill the sizer containing detector size |
---|
347 | """ |
---|
348 | # get the wavelength |
---|
349 | detector_size_value = str(self.resolution.detector_size[0]) |
---|
350 | if len(self.resolution.detector_size) > 1: |
---|
351 | detector_size_value += ", " |
---|
352 | detector_size_value += str(self.resolution.detector_size[1]) |
---|
353 | detector_size_unit_txt = wx.StaticText(self, -1, '') |
---|
354 | detector_size_txt = wx.StaticText(self, -1, 'Number of Pixels on Detector: ') |
---|
355 | self.detector_size_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
356 | detector_size_hint = "Number of Pixels on Detector" |
---|
357 | self.detector_size_tcl.SetValue(detector_size_value) |
---|
358 | self.detector_size_tcl.SetToolTipString(detector_size_hint) |
---|
359 | self.detector_size_sizer.AddMany([(detector_size_txt, 0, wx.LEFT, 15), |
---|
360 | (self.detector_size_tcl, 0, wx.LEFT, 15), |
---|
361 | (detector_size_unit_txt, 0, wx.LEFT, 10)]) |
---|
362 | |
---|
363 | def _layout_detector_pix_size(self): |
---|
364 | """ |
---|
365 | Fill the sizer containing detector pixel size |
---|
366 | """ |
---|
367 | # get the detector_pix_size |
---|
368 | detector_pix_size_value = str(self.resolution.detector_pix_size[0]) |
---|
369 | if len(self.resolution.detector_pix_size) > 1: |
---|
370 | detector_pix_size_value += ", " |
---|
371 | detector_pix_size_value += str(self.resolution.detector_pix_size[1]) |
---|
372 | detector_pix_size_unit_txt = wx.StaticText(self, -1, '[cm]') |
---|
373 | detector_pix_size_txt = wx.StaticText(self, -1, 'Detector Pixel Size: ') |
---|
374 | self.detector_pix_size_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH, -1)) |
---|
375 | detector_pix_size_hint = "Detector Pixel Size" |
---|
376 | self.detector_pix_size_tcl.SetValue(detector_pix_size_value) |
---|
377 | self.detector_pix_size_tcl.SetToolTipString(detector_pix_size_hint) |
---|
378 | self.detector_pix_size_sizer.AddMany([(detector_pix_size_txt, 0, wx.LEFT, 15), |
---|
379 | (self.detector_pix_size_tcl, 0, wx.LEFT, 15), |
---|
380 | (detector_pix_size_unit_txt, 0, wx.LEFT, 10)]) |
---|
381 | |
---|
382 | def _layout_input(self): |
---|
383 | """ |
---|
384 | Fill the sizer containing inputs; qx, qy |
---|
385 | """ |
---|
386 | |
---|
387 | q_title = wx.StaticText(self, -1, "[Q Location of the Estimation]:") |
---|
388 | # sizers for inputs |
---|
389 | inputQx_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
390 | inputQy_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
391 | # get the default dq |
---|
392 | qx_value = str(_Q_DEFAULT) |
---|
393 | qy_value = str(_Q_DEFAULT) |
---|
394 | qx_unit_txt = wx.StaticText(self, -1, '[1/A] ') |
---|
395 | qy_unit_txt = wx.StaticText(self, -1, '[1/A] ') |
---|
396 | qx_name_txt = wx.StaticText(self, -1, 'Qx: ') |
---|
397 | qy_name_txt = wx.StaticText(self, -1, 'Qy: ') |
---|
398 | self.qx_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH * 3, -1)) |
---|
399 | self.qy_tcl = InputTextCtrl(self, -1, size=(_BOX_WIDTH * 3, -1)) |
---|
400 | qx_hint = "Type the Qx value." |
---|
401 | qy_hint = "Type the Qy value." |
---|
402 | self.qx_tcl.SetValue(qx_value) |
---|
403 | self.qy_tcl.SetValue(qy_value) |
---|
404 | self.qx_tcl.SetToolTipString(qx_hint) |
---|
405 | self.qy_tcl.SetToolTipString(qy_hint) |
---|
406 | inputQx_sizer.AddMany([(qx_name_txt, 0, wx.LEFT, 15), |
---|
407 | (self.qx_tcl, 0, wx.LEFT, 15), |
---|
408 | (qx_unit_txt, 0, wx.LEFT, 15)]) |
---|
409 | inputQy_sizer.AddMany([(qy_name_txt, 0, wx.LEFT, 15), |
---|
410 | (self.qy_tcl, 0, wx.LEFT, 15), |
---|
411 | (qy_unit_txt, 0, wx.LEFT, 15)]) |
---|
412 | self.input_sizer.AddMany([(q_title, 0, wx.LEFT, 15), |
---|
413 | (inputQx_sizer, 0, |
---|
414 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
415 | (inputQy_sizer, 0, |
---|
416 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5)]) |
---|
417 | |
---|
418 | def _layout_output(self): |
---|
419 | """ |
---|
420 | Fill the sizer containing dQ|| and dQ+ |
---|
421 | """ |
---|
422 | sigma_title = wx.StaticText(self, -1, |
---|
423 | "[Standard Deviation of the Resolution Distribution]:") |
---|
424 | # sizers for inputs |
---|
425 | outputQxy_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
426 | outputQ_sizer = wx.BoxSizer(wx.HORIZONTAL) |
---|
427 | sigma_unit = '[' + '1/A' + ']' |
---|
428 | self.sigma_r_txt = wx.StaticText(self, -1, 'Sigma_x: ') |
---|
429 | self.sigma_r_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH * 0.8, -1)) |
---|
430 | self.sigma_phi_txt = wx.StaticText(self, -1, 'Sigma_y:') |
---|
431 | self.sigma_phi_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH * 0.8, -1)) |
---|
432 | self.sigma_lamd_txt = wx.StaticText(self, -1, 'Sigma_lamd:') |
---|
433 | self.sigma_lamd_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH * 0.7, -1)) |
---|
434 | sigma_1d_txt = wx.StaticText(self, -1, '( 1D: Sigma:') |
---|
435 | self.sigma_1d_tcl = OutputTextCtrl(self, -1, size=(_BOX_WIDTH * 0.7, -1)) |
---|
436 | sigmax_hint = " The x component of the geometric resolution," |
---|
437 | sigmax_hint += " excluding sigma_lamda." |
---|
438 | sigmay_hint = " The y component of the geometric resolution," |
---|
439 | sigmay_hint += " excluding sigma_lamda." |
---|
440 | sigma_hint_lamd = " The wavelength contribution in the radial direction" |
---|
441 | sigma_hint_lamd += ".\n Note: The phi component is always zero." |
---|
442 | sigma_hint_1d = " Resolution in 1-dimension (for 1D data)." |
---|
443 | self.sigma_r_tcl.SetToolTipString(sigmax_hint) |
---|
444 | self.sigma_phi_tcl.SetToolTipString(sigmay_hint) |
---|
445 | self.sigma_lamd_tcl.SetToolTipString(sigma_hint_lamd) |
---|
446 | self.sigma_1d_tcl.SetToolTipString(sigma_hint_1d) |
---|
447 | sigma_r_unit_txt = wx.StaticText(self, -1, sigma_unit) |
---|
448 | sigma_phi_unit_txt = wx.StaticText(self, -1, sigma_unit) |
---|
449 | sigma_lamd_unit_txt = wx.StaticText(self, -1, sigma_unit) |
---|
450 | sigma_1d_unit_txt = wx.StaticText(self, -1, sigma_unit + ' )') |
---|
451 | outputQxy_sizer.AddMany([(self.sigma_r_txt, 0, wx.LEFT, 15), |
---|
452 | (self.sigma_r_tcl, 0, wx.LEFT, 15), |
---|
453 | (sigma_r_unit_txt, 0, wx.LEFT, 15), |
---|
454 | (self.sigma_phi_txt, 0, wx.LEFT, 15), |
---|
455 | (self.sigma_phi_tcl, 0, wx.LEFT, 15), |
---|
456 | (sigma_phi_unit_txt, 0, wx.LEFT, 15)]) |
---|
457 | outputQ_sizer.AddMany([(self.sigma_lamd_txt, 0, wx.LEFT, 15), |
---|
458 | (self.sigma_lamd_tcl, 0, wx.LEFT, 15), |
---|
459 | (sigma_lamd_unit_txt, 0, wx.LEFT, 15), |
---|
460 | (sigma_1d_txt, 0, wx.LEFT, 15), |
---|
461 | (self.sigma_1d_tcl, 0, wx.LEFT, 15), |
---|
462 | (sigma_1d_unit_txt, 0, wx.LEFT, 15)]) |
---|
463 | self.output_sizer.AddMany([(sigma_title, 0, wx.LEFT, 15), |
---|
464 | (outputQxy_sizer, 0, |
---|
465 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
466 | (outputQ_sizer, 0, |
---|
467 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5)]) |
---|
468 | |
---|
469 | def _layout_hint(self): |
---|
470 | """ |
---|
471 | Fill the sizer containing hint |
---|
472 | """ |
---|
473 | hint_msg = "" |
---|
474 | #hint_msg += "This tool is to approximately compute " |
---|
475 | #hint_msg += "the instrumental resolution (dQ)." |
---|
476 | |
---|
477 | self.hint_txt = wx.StaticText(self, -1, hint_msg) |
---|
478 | self.hint_sizer.AddMany([(self.hint_txt, 0, wx.LEFT, 15)]) |
---|
479 | |
---|
480 | def _layout_button(self): |
---|
481 | """ |
---|
482 | Do the layout for the button widgets |
---|
483 | """ |
---|
484 | |
---|
485 | wx_id = wx.NewId() |
---|
486 | self.reset_button = wx.Button(self, wx_id, "Reset") |
---|
487 | hint_on_reset = "..." |
---|
488 | self.reset_button.SetToolTipString(hint_on_reset) |
---|
489 | self.Bind(wx.EVT_BUTTON, self.on_reset, id=wx_id) |
---|
490 | #compute button |
---|
491 | wx_id = wx.NewId() |
---|
492 | self.compute_button = wx.Button(self, wx_id, "Compute") |
---|
493 | hint_on_compute = "Compute... Please wait until finished." |
---|
494 | self.compute_button.SetToolTipString(hint_on_compute) |
---|
495 | self.Bind(wx.EVT_BUTTON, self.on_compute, id=wx_id) |
---|
496 | #help button |
---|
497 | wx_id = wx.NewId() |
---|
498 | self.help_button = wx.Button(self, wx_id, "HELP") |
---|
499 | hint_on_help = "Help on using the Resolution Calculator" |
---|
500 | self.help_button.SetToolTipString(hint_on_help) |
---|
501 | self.Bind(wx.EVT_BUTTON, self.on_help, id=wx_id) |
---|
502 | # close button |
---|
503 | self.bt_close = wx.Button(self, wx.ID_CANCEL, 'Close') |
---|
504 | self.bt_close.Bind(wx.EVT_BUTTON, self.on_close) |
---|
505 | self.bt_close.SetToolTipString("Close this window.") |
---|
506 | |
---|
507 | self.button_sizer.Add((110, -1)) |
---|
508 | self.button_sizer.AddMany([(self.reset_button, 0, wx.LEFT, 50), |
---|
509 | (self.compute_button, 0, wx.LEFT, 15), |
---|
510 | (self.help_button, 0, wx.LEFT, 15), |
---|
511 | (self.bt_close, 0, wx.LEFT, 15)]) |
---|
512 | self.compute_button.SetFocus() |
---|
513 | |
---|
514 | def _layout_image(self): |
---|
515 | """ |
---|
516 | Layout for image plot |
---|
517 | """ |
---|
518 | # Contribution by James C. |
---|
519 | # Instantiate a figure object that will contain our plots. |
---|
520 | # Make the fig a little smaller than the default |
---|
521 | self.figure = Figure(figsize=(6.5, 6), facecolor='white') |
---|
522 | |
---|
523 | # Initialize the figure canvas, mapping the figure object to the plot |
---|
524 | # engine backend. |
---|
525 | self.canvas = FigureCanvas(self, wx.ID_ANY, self.figure) |
---|
526 | |
---|
527 | # Wx-Pylab magic ... |
---|
528 | # Make our canvas the active figure manager for pylab so that when |
---|
529 | # pylab plotting statements are executed they will operate on our |
---|
530 | # canvas and not create a new frame and canvas for display purposes. |
---|
531 | # This technique allows this application to execute code that uses |
---|
532 | # pylab stataments to generate plots and embed these plots in our |
---|
533 | # application window(s). |
---|
534 | self.fm = FigureManagerBase(self.canvas, 1) |
---|
535 | _pylab_helpers.Gcf.set_active(self.fm) |
---|
536 | |
---|
537 | # Instantiate the matplotlib navigation toolbar and explicitly show it. |
---|
538 | mpl_toolbar = Toolbar(self.canvas) |
---|
539 | # Diable pan |
---|
540 | mpl_toolbar.DeleteToolByPos(3) |
---|
541 | |
---|
542 | # Add a toolbar into the frame |
---|
543 | mpl_toolbar.Realize() |
---|
544 | |
---|
545 | # Compute before adding the canvas to the sizer |
---|
546 | self.on_compute() |
---|
547 | |
---|
548 | # Fill up the sizer |
---|
549 | if IS_WIN: |
---|
550 | gap = 27 |
---|
551 | else: |
---|
552 | gap = 13 |
---|
553 | self.vertical_r_sizer.Add(self.canvas, 0, wx.ALL | wx.EXPAND, 2) |
---|
554 | self.vertical_r_spacer.Add((0, gap)) |
---|
555 | self.vertical_r_spacer.Add(self.vertical_r_sizer, 0, wx.ALL | wx.EXPAND, 2) |
---|
556 | self.vertical_r_spacer.Add((0, gap)) |
---|
557 | self.vertical_r_spacer.Add(wx.StaticLine(self), 0, wx.ALL | wx.EXPAND, 2) |
---|
558 | self.vertical_r_spacer.Add(mpl_toolbar, 0, wx.ALL | wx.EXPAND, 2) |
---|
559 | |
---|
560 | def _do_layout(self): |
---|
561 | """ |
---|
562 | Draw window layout |
---|
563 | """ |
---|
564 | # Title of parameters |
---|
565 | instrument_txt = wx.StaticText(self, -1, '[Instrumental Parameters]:') |
---|
566 | # Build individual layouts |
---|
567 | self._define_structure() |
---|
568 | self._layout_mass() |
---|
569 | self._layout_wavelength() |
---|
570 | self._layout_wavelength_spread() |
---|
571 | self._layout_source_aperture() |
---|
572 | self._layout_sample_aperture() |
---|
573 | self._layout_source2sample_distance() |
---|
574 | self._layout_sample2detector_distance() |
---|
575 | self._layout_sample2sample_distance() |
---|
576 | self._layout_detector_size() |
---|
577 | self._layout_detector_pix_size() |
---|
578 | self._layout_input() |
---|
579 | self._layout_output() |
---|
580 | self._layout_hint() |
---|
581 | self._layout_button() |
---|
582 | # Fill the sizers |
---|
583 | self.boxsizer_source.AddMany([(instrument_txt, 0, |
---|
584 | wx.EXPAND | wx.LEFT, 15), |
---|
585 | (self.mass_sizer, 0, |
---|
586 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
587 | (self.wavelength_sizer, 0, |
---|
588 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
589 | (self.wavelength_spread_sizer, 0, |
---|
590 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
591 | (self.source_aperture_sizer, 0, |
---|
592 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
593 | (self.sample_aperture_sizer, 0, |
---|
594 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
595 | (self.source2sample_distance_sizer, 0, |
---|
596 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
597 | (self.sample2detector_distance_sizer, 0, |
---|
598 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
599 | (self.sample2sample_distance_sizer, 0, |
---|
600 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
601 | (self.detector_size_sizer, 0, |
---|
602 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
603 | (self.detector_pix_size_sizer, 0, |
---|
604 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
605 | (wx.StaticLine(self), 0, |
---|
606 | wx.ALL | wx.EXPAND, 5), |
---|
607 | (self.input_sizer, 0, |
---|
608 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5), |
---|
609 | (wx.StaticLine(self), 0, |
---|
610 | wx.ALL | wx.EXPAND, 5), |
---|
611 | (self.output_sizer, 0, |
---|
612 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5)]) |
---|
613 | self.vertical_l_sizer.AddMany([(self.boxsizer_source, 0, wx.ALL, 10), |
---|
614 | (wx.StaticLine(self), 0, |
---|
615 | wx.ALL | wx.EXPAND, 5), |
---|
616 | (self.button_sizer, 0, |
---|
617 | wx.EXPAND | wx.TOP | wx.BOTTOM, 5)]) |
---|
618 | self.main_sizer.Add(self.vertical_l_sizer, 0, wx.ALL, 10) |
---|
619 | |
---|
620 | # Build image plot layout |
---|
621 | self._layout_image() |
---|
622 | # Add a vertical static line |
---|
623 | self.main_sizer.Add(wx.StaticLine(self, -1, (2, 2), |
---|
624 | (2, PANEL_HEIGHT * 0.94), style=wx.LI_VERTICAL)) |
---|
625 | # Add the plot to main sizer |
---|
626 | self.main_sizer.Add(self.vertical_r_spacer, 0, wx.ALL, 10) |
---|
627 | self.SetSizer(self.main_sizer) |
---|
628 | self.SetAutoLayout(True) |
---|
629 | |
---|
630 | def on_help(self, event): |
---|
631 | """ |
---|
632 | Bring up the Resolution calculator Documentation whenever |
---|
633 | the HELP button is clicked. |
---|
634 | |
---|
635 | Calls DocumentationWindow with the path of the location within the |
---|
636 | documentation tree (after /doc/ ....". Note that when using old |
---|
637 | versions of Wx (before 2.9) and thus not the release version of |
---|
638 | installers, the help comes up at the top level of the file as |
---|
639 | webbrowser does not pass anything past the # to the browser when it is |
---|
640 | running "file:///...." |
---|
641 | |
---|
642 | :param evt: Triggers on clicking the help button |
---|
643 | """ |
---|
644 | |
---|
645 | _TreeLocation = "user/sasgui/perspectives/calculator/" |
---|
646 | _TreeLocation += "resolution_calculator_help.html" |
---|
647 | _doc_viewer = DocumentationWindow(self, -1, _TreeLocation, "", |
---|
648 | "Resolution Calculator Help") |
---|
649 | |
---|
650 | def on_close(self, event): |
---|
651 | """ |
---|
652 | close the window containing this panel |
---|
653 | """ |
---|
654 | # get ready for other events |
---|
655 | if event is not None: |
---|
656 | event.Skip() |
---|
657 | # Clear the plot |
---|
658 | if self.image is not None: |
---|
659 | self.image.clf() |
---|
660 | # reset image |
---|
661 | self.image = None |
---|
662 | # Close panel |
---|
663 | self.parent.OnClose(None) |
---|
664 | |
---|
665 | def on_compute(self, event=None): |
---|
666 | """ |
---|
667 | Execute the computation of resolution |
---|
668 | """ |
---|
669 | wx.CallAfter(self.on_compute_call, event) |
---|
670 | |
---|
671 | def on_compute_call(self, event=None): |
---|
672 | """ |
---|
673 | Execute the computation of resolution |
---|
674 | """ |
---|
675 | # Skip event for next event |
---|
676 | if event is not None: |
---|
677 | event.Skip() |
---|
678 | msg = "Please Check your input values " |
---|
679 | msg += "before starting the computation..." |
---|
680 | |
---|
681 | # message |
---|
682 | status_type = 'progress' |
---|
683 | msg = 'Calculating...' |
---|
684 | self._status_info(msg, status_type) |
---|
685 | |
---|
686 | status_type = 'stop' |
---|
687 | # Q min max list default |
---|
688 | qx_min = [] |
---|
689 | qx_max = [] |
---|
690 | qy_min = [] |
---|
691 | qy_max = [] |
---|
692 | # possible max qrange |
---|
693 | self.resolution.qxmin_limit = 0 |
---|
694 | self.resolution.qxmax_limit = 0 |
---|
695 | self.resolution.qymin_limit = 0 |
---|
696 | self.resolution.qymax_limit = 0 |
---|
697 | # q min and max of the detector |
---|
698 | try: |
---|
699 | # Get all the values at set to compute |
---|
700 | # default num bin of wave list |
---|
701 | self.num_wave = 10 |
---|
702 | wavelength = self._str2longlist(self.wavelength_tcl.GetValue()) |
---|
703 | source = self.source_cb.GetValue() |
---|
704 | mass = self.source_mass[str(source)] |
---|
705 | self.resolution.set_neutron_mass(float(mass)) |
---|
706 | wavelength_spread = self._str2longlist(\ |
---|
707 | self.wavelength_spread_tcl.GetValue().split(';')[0]) |
---|
708 | # Validate the wave inputs |
---|
709 | wave_input = self._validate_q_input(wavelength, wavelength_spread) |
---|
710 | if wave_input is not None: |
---|
711 | wavelength, wavelength_spread = wave_input |
---|
712 | |
---|
713 | self.resolution.set_wave(wavelength) |
---|
714 | self.resolution.set_wave_spread(wavelength_spread) |
---|
715 | source_aperture_size = self.source_aperture_tcl.GetValue() |
---|
716 | source_aperture_size = self._string2list(source_aperture_size) |
---|
717 | self.resolution.set_source_aperture_size(source_aperture_size) |
---|
718 | sample_aperture_size = self.sample_aperture_tcl.GetValue() |
---|
719 | sample_aperture_size = self._string2list(sample_aperture_size) |
---|
720 | self.resolution.set_sample_aperture_size(sample_aperture_size) |
---|
721 | source2sample_distance = self.source2sample_distance_tcl.GetValue() |
---|
722 | source2sample_distance = self._string2list(source2sample_distance) |
---|
723 | self.resolution.set_source2sample_distance(source2sample_distance) |
---|
724 | sample2sample_distance = self.sample2sample_distance_tcl.GetValue() |
---|
725 | sample2sample_distance = self._string2list(sample2sample_distance) |
---|
726 | self.resolution.set_sample2sample_distance(sample2sample_distance) |
---|
727 | sample2detector_distance = \ |
---|
728 | self.sample2detector_distance_tcl.GetValue() |
---|
729 | sample2detector_distance = \ |
---|
730 | self._string2list(sample2detector_distance) |
---|
731 | self.resolution.set_sample2detector_distance(\ |
---|
732 | sample2detector_distance) |
---|
733 | detector_size = self.detector_size_tcl.GetValue() |
---|
734 | detector_size = self._string2list(detector_size) |
---|
735 | self.resolution.set_detector_size(detector_size) |
---|
736 | detector_pix_size = self.detector_pix_size_tcl.GetValue() |
---|
737 | detector_pix_size = self._string2list(detector_pix_size) |
---|
738 | self.resolution.set_detector_pix_size(detector_pix_size) |
---|
739 | self.qx = self._string2inputlist(self.qx_tcl.GetValue()) |
---|
740 | self.qy = self._string2inputlist(self.qy_tcl.GetValue()) |
---|
741 | |
---|
742 | # Find min max of qs |
---|
743 | xmin = min(self.qx) |
---|
744 | xmax = max(self.qx) |
---|
745 | ymin = min(self.qy) |
---|
746 | ymax = max(self.qy) |
---|
747 | if not self._validate_q_input(self.qx, self.qy): |
---|
748 | raise |
---|
749 | except: |
---|
750 | msg = "An error occured during the resolution computation." |
---|
751 | msg += "Please check your inputs..." |
---|
752 | self._status_info(msg, status_type) |
---|
753 | wx.MessageBox(msg, 'Warning') |
---|
754 | return |
---|
755 | #raise ValueError, "Invalid Q Input..." |
---|
756 | |
---|
757 | # Validate the q inputs |
---|
758 | q_input = self._validate_q_input(self.qx, self.qy) |
---|
759 | if q_input is not None: |
---|
760 | self.qx, self.qy = q_input |
---|
761 | |
---|
762 | # Make list of q min max for mapping |
---|
763 | for i in range(len(self.qx)): |
---|
764 | qx_min.append(xmin) |
---|
765 | qx_max.append(xmax) |
---|
766 | for i in range(len(self.qy)): |
---|
767 | qy_min.append(ymin) |
---|
768 | qy_max.append(ymax) |
---|
769 | |
---|
770 | # Compute the resolution |
---|
771 | if self.image is not None: |
---|
772 | #_pylab_helpers.Gcf.set_active(self.fm) |
---|
773 | _pylab_helpers.Gcf.figs = {} |
---|
774 | # Clear the image before redraw |
---|
775 | self.image.clf() |
---|
776 | # reset the image |
---|
777 | self.resolution.reset_image() |
---|
778 | |
---|
779 | # Compute and get the image plot |
---|
780 | try: |
---|
781 | from sas.sasgui.perspectives.calculator.resolcal_thread import CalcRes as thread |
---|
782 | self.sigma_strings = '\nResolution: Computation is finished. \n' |
---|
783 | cal_res = thread(func=self._map_func, |
---|
784 | qx=self.qx, |
---|
785 | qy=self.qy, |
---|
786 | qx_min=qx_min, |
---|
787 | qx_max=qx_max, |
---|
788 | qy_min=qy_min, |
---|
789 | qy_max=qy_max, |
---|
790 | image=self.image, |
---|
791 | completefn=self.complete) |
---|
792 | cal_res.queue() |
---|
793 | msg = "Computation is in progress..." |
---|
794 | status_type = 'progress' |
---|
795 | self._status_info(msg, status_type) |
---|
796 | except: |
---|
797 | raise |
---|
798 | |
---|
799 | def complete(self, image, elapsed=None): |
---|
800 | """ |
---|
801 | Callafter complete: wx call after needed for stable output |
---|
802 | """ |
---|
803 | wx.CallAfter(self.complete_cal, image, elapsed) |
---|
804 | |
---|
805 | def complete_cal(self, image, elapsed=None): |
---|
806 | """ |
---|
807 | Complete computation |
---|
808 | """ |
---|
809 | self.image = image |
---|
810 | # Draw lines in image before drawing |
---|
811 | wave_list, _ = self.resolution.get_wave_list() |
---|
812 | if len(wave_list) > 1 and wave_list[-1] == max(wave_list): |
---|
813 | # draw a green rectangle(limit for the longest wavelength |
---|
814 | # to be involved) for tof inputs |
---|
815 | self._draw_lines(self.image, color='g') |
---|
816 | self._draw_lines(self.image, color='r') |
---|
817 | # Draw image |
---|
818 | self.image.draw() |
---|
819 | |
---|
820 | # Get and format the sigmas |
---|
821 | sigma_r = self.format_number(self.resolution.sigma_1) |
---|
822 | sigma_phi = self.format_number(self.resolution.sigma_2) |
---|
823 | sigma_lamd = self.format_number(self.resolution.sigma_lamd) |
---|
824 | sigma_1d = self.format_number(self.resolution.sigma_1d) |
---|
825 | |
---|
826 | # Set output values |
---|
827 | self.sigma_r_tcl.SetValue(str(sigma_r)) |
---|
828 | self.sigma_phi_tcl.SetValue(str(sigma_phi)) |
---|
829 | self.sigma_lamd_tcl.SetValue(str(sigma_lamd)) |
---|
830 | self.sigma_1d_tcl.SetValue(str(sigma_1d)) |
---|
831 | msg = self.sigma_strings |
---|
832 | msg += "\n" |
---|
833 | status_type = 'stop' |
---|
834 | self._status_info(msg, status_type) |
---|
835 | |
---|
836 | def _draw_lines(self, image=None, color='r'): |
---|
837 | """ |
---|
838 | Draw lines in image if applicable |
---|
839 | : Param image: pylab object |
---|
840 | """ |
---|
841 | if image is None: |
---|
842 | return |
---|
843 | if color == 'g': |
---|
844 | # Get the params from resolution |
---|
845 | # ploting range for largest wavelength |
---|
846 | qx_min = self.resolution.qx_min |
---|
847 | qx_max = self.resolution.qx_max |
---|
848 | qy_min = self.resolution.qy_min |
---|
849 | qy_max = self.resolution.qy_max |
---|
850 | # detector range |
---|
851 | detector_qx_min = self.resolution.detector_qx_min |
---|
852 | detector_qx_max = self.resolution.detector_qx_max |
---|
853 | detector_qy_min = self.resolution.detector_qy_min |
---|
854 | detector_qy_max = self.resolution.detector_qy_max |
---|
855 | else: |
---|
856 | qx_min, qx_max, qy_min, qy_max = \ |
---|
857 | self.resolution.get_detector_qrange() |
---|
858 | # detector range |
---|
859 | detector_qx_min = self.resolution.qxmin_limit |
---|
860 | detector_qx_max = self.resolution.qxmax_limit |
---|
861 | detector_qy_min = self.resolution.qymin_limit |
---|
862 | detector_qy_max = self.resolution.qymax_limit |
---|
863 | |
---|
864 | # Draw zero axis lines |
---|
865 | if qy_min < 0 and qy_max >= 0: |
---|
866 | image.axhline(linewidth=1) |
---|
867 | if qx_min < 0 and qx_max >= 0: |
---|
868 | image.axvline(linewidth=1) |
---|
869 | |
---|
870 | # Find x and y ratio values to draw the detector outline |
---|
871 | x_min = fabs(detector_qx_min - qx_min) / (qx_max - qx_min) |
---|
872 | x_max = fabs(detector_qx_max - qx_min) / (qx_max - qx_min) |
---|
873 | y_min = fabs(detector_qy_min - qy_min) / (qy_max - qy_min) |
---|
874 | y_max = fabs(detector_qy_max - qy_min) / (qy_max - qy_min) |
---|
875 | |
---|
876 | # Draw Detector outline |
---|
877 | if detector_qy_min >= qy_min: |
---|
878 | image.axhline(y=detector_qy_min + 0.0002, |
---|
879 | xmin=x_min, xmax=x_max, |
---|
880 | linewidth=2, color=color) |
---|
881 | if detector_qy_max <= qy_max: |
---|
882 | image.axhline(y=detector_qy_max - 0.0002, |
---|
883 | xmin=x_min, xmax=x_max, |
---|
884 | linewidth=2, color=color) |
---|
885 | if detector_qx_min >= qx_min: |
---|
886 | image.axvline(x=detector_qx_min + 0.0002, |
---|
887 | ymin=y_min, ymax=y_max, |
---|
888 | linewidth=2, color=color) |
---|
889 | if detector_qx_max <= qx_max: |
---|
890 | image.axvline(x=detector_qx_max - 0.0002, |
---|
891 | ymin=y_min, ymax=y_max, |
---|
892 | linewidth=2, color=color) |
---|
893 | xmin = min(self.qx) |
---|
894 | xmax = max(self.qx) |
---|
895 | ymin = min(self.qy) |
---|
896 | ymax = max(self.qy) |
---|
897 | if color != 'g': |
---|
898 | if xmin < detector_qx_min or xmax > detector_qx_max or \ |
---|
899 | ymin < detector_qy_min or ymax > detector_qy_max: |
---|
900 | # message |
---|
901 | status_type = 'stop' |
---|
902 | msg = 'At least one q value located out side of\n' |
---|
903 | msg += " the detector range (%s < qx < %s, %s < qy < %s),\n" % \ |
---|
904 | (self.format_number(detector_qx_min), |
---|
905 | self.format_number(detector_qx_max), |
---|
906 | self.format_number(detector_qy_min), |
---|
907 | self.format_number(detector_qy_max)) |
---|
908 | msg += " is ignored in computation.\n" |
---|
909 | |
---|
910 | self._status_info(msg, status_type) |
---|
911 | wx.MessageBox(msg, 'Warning') |
---|
912 | |
---|
913 | def _map_func(self, qx, qy, qx_min, qx_max, qy_min, qy_max): |
---|
914 | """ |
---|
915 | Prepare the Mapping for the computation |
---|
916 | : params qx, qy, qx_min, qx_max, qy_min, qy_max: |
---|
917 | |
---|
918 | : return: image (pylab) |
---|
919 | """ |
---|
920 | try: |
---|
921 | qx_value = float(qx) |
---|
922 | qy_value = float(qy) |
---|
923 | except: |
---|
924 | raise |
---|
925 | # calculate 2D resolution distribution image |
---|
926 | image = self.resolution.compute_and_plot(qx_value, qy_value, |
---|
927 | qx_min, qx_max, qy_min, qy_max, |
---|
928 | self.det_coordinate) |
---|
929 | # record sigmas |
---|
930 | self.sigma_strings += " At Qx = %s, Qy = %s; \n" % (qx_value, qy_value) |
---|
931 | self._sigma_strings() |
---|
932 | return image |
---|
933 | |
---|
934 | def _sigma_strings(self): |
---|
935 | """ |
---|
936 | Recode sigmas as strings |
---|
937 | """ |
---|
938 | sigma_r = self.format_number(self.resolution.sigma_1) |
---|
939 | sigma_phi = self.format_number(self.resolution.sigma_2) |
---|
940 | sigma_lamd = self.format_number(self.resolution.sigma_lamd) |
---|
941 | sigma_1d = self.format_number(self.resolution.sigma_1d) |
---|
942 | # Set output values |
---|
943 | self.sigma_strings += " sigma_x = %s\n" % sigma_r |
---|
944 | self.sigma_strings += " sigma_y = %s\n" % sigma_phi |
---|
945 | self.sigma_strings += " sigma_lamd = %s\n" % sigma_lamd |
---|
946 | self.sigma_strings += " sigma_1D = %s\n" % sigma_1d |
---|
947 | |
---|
948 | def _validate_q_input(self, qx, qy): |
---|
949 | """ |
---|
950 | Check if q inputs are valid |
---|
951 | : params qx: qx as a list |
---|
952 | : params qy: qy as a list |
---|
953 | |
---|
954 | : return: True/False |
---|
955 | """ |
---|
956 | # check qualifications |
---|
957 | if qx.__class__.__name__ != 'list': |
---|
958 | return None |
---|
959 | if qy.__class__.__name__ != 'list': |
---|
960 | return None |
---|
961 | if len(qx) < 1: |
---|
962 | return None |
---|
963 | if len(qy) < 1: |
---|
964 | return None |
---|
965 | # allow one input |
---|
966 | if len(qx) == 1 and len(qy) > 1: |
---|
967 | qx = [qx[0] for ind in range(len(qy))] |
---|
968 | #self.qx = qx |
---|
969 | if len(qy) == 1 and len(qx) > 1: |
---|
970 | qy = [qy[0] for ind in range(len(qx))] |
---|
971 | #self.qy = qy |
---|
972 | # check length |
---|
973 | if len(qx) != len(qy): |
---|
974 | return None |
---|
975 | if qx is None or qy is None: |
---|
976 | return None |
---|
977 | return qx, qy |
---|
978 | |
---|
979 | def on_reset(self, event): |
---|
980 | """ |
---|
981 | Execute the reset |
---|
982 | """ |
---|
983 | # skip for another event |
---|
984 | if event is not None: |
---|
985 | event.Skip() |
---|
986 | # init resolution_calculator |
---|
987 | self.resolution = ResolutionCalculator() |
---|
988 | self.resolution.get_all_instrument_params() |
---|
989 | # reset all param values |
---|
990 | self.source_cb.SetValue('Neutron') |
---|
991 | self._on_source_selection(None) |
---|
992 | self.wave_color_cb.SetValue('Monochromatic') |
---|
993 | self._on_source_color(None) |
---|
994 | #self.intensity_tcl.SetValue(str(self.resolution.intensity)) |
---|
995 | self.wavelength_tcl.SetValue(str(6.0)) |
---|
996 | self.wavelength_spread_tcl.SetValue(str(0.125)) |
---|
997 | self.resolution.set_spectrum(self.spectrum_dic['Flat']) |
---|
998 | self.spectrum_txt.Show(False) |
---|
999 | self.spectrum_cb.Show(False) |
---|
1000 | source_aperture_value = str(self.resolution.source_aperture_size[0]) |
---|
1001 | if len(self.resolution.source_aperture_size) > 1: |
---|
1002 | source_aperture_value += ", " |
---|
1003 | source_aperture_value += \ |
---|
1004 | str(self.resolution.source_aperture_size[1]) |
---|
1005 | self.source_aperture_tcl.SetValue(str(source_aperture_value)) |
---|
1006 | sample_aperture_value = str(self.resolution.sample_aperture_size[0]) |
---|
1007 | if len(self.resolution.sample_aperture_size) > 1: |
---|
1008 | sample_aperture_value += ", " |
---|
1009 | sample_aperture_value += \ |
---|
1010 | str(self.resolution.sample_aperture_size[1]) |
---|
1011 | self.sample_aperture_tcl.SetValue(sample_aperture_value) |
---|
1012 | source2sample_distance_value = \ |
---|
1013 | str(self.resolution.source2sample_distance[0]) |
---|
1014 | self.source2sample_distance_tcl.SetValue(source2sample_distance_value) |
---|
1015 | sample2sample_distance_value = \ |
---|
1016 | str(self.resolution.sample2sample_distance[0]) |
---|
1017 | self.sample2sample_distance_tcl.SetValue(sample2sample_distance_value) |
---|
1018 | sample2detector_distance_value = \ |
---|
1019 | str(self.resolution.sample2detector_distance[0]) |
---|
1020 | self.sample2detector_distance_tcl.SetValue(\ |
---|
1021 | sample2detector_distance_value) |
---|
1022 | detector_size_value = str(self.resolution.detector_size[0]) |
---|
1023 | if len(self.resolution.detector_size) > 1: |
---|
1024 | detector_size_value += ", " |
---|
1025 | detector_size_value += str(self.resolution.detector_size[1]) |
---|
1026 | self.detector_size_tcl.SetValue(detector_size_value) |
---|
1027 | detector_pix_size_value = str(self.resolution.detector_pix_size[0]) |
---|
1028 | if len(self.resolution.detector_pix_size) > 1: |
---|
1029 | detector_pix_size_value += ", " |
---|
1030 | detector_pix_size_value += str(self.resolution.detector_pix_size[1]) |
---|
1031 | self.detector_pix_size_tcl.SetValue(detector_pix_size_value) |
---|
1032 | #layout attribute |
---|
1033 | self.hint_sizer = None |
---|
1034 | # reset q inputs |
---|
1035 | self.qx_tcl.SetValue(str(_Q_DEFAULT)) |
---|
1036 | self.qy_tcl.SetValue(str(_Q_DEFAULT)) |
---|
1037 | # reset sigma outputs |
---|
1038 | self.sigma_r_tcl.SetValue('') |
---|
1039 | self.sigma_phi_tcl.SetValue('') |
---|
1040 | self.sigma_1d_tcl.SetValue('') |
---|
1041 | # reset radio button |
---|
1042 | #self.r_phi_rb.SetValue(True) |
---|
1043 | # Finally re-compute |
---|
1044 | self.on_compute() |
---|
1045 | # msg on info |
---|
1046 | msg = " Finished the resetting..." |
---|
1047 | self._status_info(msg, 'stop') |
---|
1048 | |
---|
1049 | def format_number(self, value=None): |
---|
1050 | """ |
---|
1051 | Return a float in a standardized, human-readable formatted string |
---|
1052 | """ |
---|
1053 | try: |
---|
1054 | value = float(value) |
---|
1055 | except: |
---|
1056 | output = None |
---|
1057 | return output |
---|
1058 | |
---|
1059 | output = "%-7.4g" % value |
---|
1060 | return output.lstrip().rstrip() |
---|
1061 | |
---|
1062 | def _string2list(self, string): |
---|
1063 | """ |
---|
1064 | Change NNN, NNN to list,ie. [NNN, NNN] where NNN is a number |
---|
1065 | """ |
---|
1066 | new_string = [] |
---|
1067 | # check the number of floats |
---|
1068 | try: |
---|
1069 | strg = float(string) |
---|
1070 | new_string.append(strg) |
---|
1071 | except: |
---|
1072 | string_split = string.split(',') |
---|
1073 | if len(string_split) == 2: |
---|
1074 | str_1 = string_split[0] |
---|
1075 | str_2 = string_split[1] |
---|
1076 | new_string.append(float(str_1)) |
---|
1077 | new_string.append(float(str_2)) |
---|
1078 | elif len(string_split) == 1: |
---|
1079 | str_1 = string_split[0] |
---|
1080 | new_string.append(float(str_1)) |
---|
1081 | else: |
---|
1082 | msg = "The numbers must be one or two (separated by ',')..." |
---|
1083 | self._status_info(msg, 'stop') |
---|
1084 | raise RuntimeError, msg |
---|
1085 | |
---|
1086 | return new_string |
---|
1087 | |
---|
1088 | def _string2inputlist(self, string): |
---|
1089 | """ |
---|
1090 | Change NNN, NNN,... to list,ie. [NNN, NNN,...] where NNN is a number |
---|
1091 | |
---|
1092 | : return new_string: string like list |
---|
1093 | """ |
---|
1094 | new_string = [] |
---|
1095 | string_split = string.split(',') |
---|
1096 | length = len(string_split) |
---|
1097 | for ind in range(length): |
---|
1098 | try: |
---|
1099 | value = float(string_split[ind]) |
---|
1100 | new_string.append(value) |
---|
1101 | except: |
---|
1102 | logger.error(sys.exc_value) |
---|
1103 | |
---|
1104 | return new_string |
---|
1105 | |
---|
1106 | def _str2longlist(self, string): |
---|
1107 | """ |
---|
1108 | Change NNN, NNN,... to list, NNN - NNN ; NNN to list, or float to list |
---|
1109 | |
---|
1110 | : return new_string: string like list |
---|
1111 | """ |
---|
1112 | msg = "Wrong format of intputs." |
---|
1113 | try: |
---|
1114 | # is float |
---|
1115 | out = [float(string)] |
---|
1116 | return out |
---|
1117 | except: |
---|
1118 | if self.wave_color.lower().count('mono') > 0: |
---|
1119 | wx.MessageBox(msg, 'Warning') |
---|
1120 | else: |
---|
1121 | try: |
---|
1122 | # has a '-' |
---|
1123 | if string.count('-') > 0: |
---|
1124 | value = string.split('-') |
---|
1125 | if value[1].count(';') > 0: |
---|
1126 | # has a ';' |
---|
1127 | last_list = value[1].split(';') |
---|
1128 | num = math.ceil(float(last_list[1])) |
---|
1129 | max_value = float(last_list[0]) |
---|
1130 | self.num_wave = num |
---|
1131 | else: |
---|
1132 | # default num |
---|
1133 | num = self.num_wave |
---|
1134 | max_value = float(value[1]) |
---|
1135 | min_value = float(value[0]) |
---|
1136 | # make a list |
---|
1137 | bin_size = math.fabs(max_value - min_value) / (num - 1) |
---|
1138 | out = [min_value + bin_size * bnum for bnum in range(num)] |
---|
1139 | return out |
---|
1140 | if string.count(',') > 0: |
---|
1141 | out = self._string2inputlist(string) |
---|
1142 | return out |
---|
1143 | except: |
---|
1144 | logger.error(sys.exc_value) |
---|
1145 | |
---|
1146 | def _on_xy_coordinate(self, event=None): |
---|
1147 | """ |
---|
1148 | Set the detector coordinate for sigmas to x-y coordinate |
---|
1149 | """ |
---|
1150 | if event is not None: |
---|
1151 | event.Skip() |
---|
1152 | # Set the coordinate in Cartesian |
---|
1153 | self.det_coordinate = 'cartesian' |
---|
1154 | self.sigma_r_txt.SetLabel('Sigma_x:') |
---|
1155 | self.sigma_phi_txt.SetLabel('Sigma_y:') |
---|
1156 | self._onparamEnter() |
---|
1157 | |
---|
1158 | def _on_rp_coordinate(self, event=None): |
---|
1159 | """ |
---|
1160 | Set the detector coordinate for sigmas to polar coordinate |
---|
1161 | """ |
---|
1162 | if event is not None: |
---|
1163 | event.Skip() |
---|
1164 | # Set the coordinate in polar |
---|
1165 | self.det_coordinate = 'polar' |
---|
1166 | self.sigma_r_txt.SetLabel('Sigma_r: ') |
---|
1167 | self.sigma_phi_txt.SetLabel('Sigma_phi:') |
---|
1168 | self._onparamEnter() |
---|
1169 | |
---|
1170 | def _status_info(self, msg='', type="update"): |
---|
1171 | """ |
---|
1172 | Status msg |
---|
1173 | """ |
---|
1174 | if type == "stop": |
---|
1175 | label = "Compute" |
---|
1176 | able = True |
---|
1177 | else: |
---|
1178 | label = "Wait..." |
---|
1179 | able = False |
---|
1180 | self.compute_button.Enable(able) |
---|
1181 | self.compute_button.SetLabel(label) |
---|
1182 | self.compute_button.SetToolTipString(label) |
---|
1183 | if self.parent.parent is not None: |
---|
1184 | wx.PostEvent(self.parent.parent, |
---|
1185 | StatusEvent(status=msg, type=type)) |
---|
1186 | |
---|
1187 | |
---|
1188 | def _onparamEnter(self, event=None): |
---|
1189 | """ |
---|
1190 | On Text_enter_callback, perform compute |
---|
1191 | """ |
---|
1192 | self.on_compute() |
---|
1193 | |
---|
1194 | def _on_source_selection(self, event=None): |
---|
1195 | """ |
---|
1196 | On source combobox selection |
---|
1197 | """ |
---|
1198 | if event is not None: |
---|
1199 | combo = event.GetEventObject() |
---|
1200 | event.Skip() |
---|
1201 | else: |
---|
1202 | combo = self.source_cb |
---|
1203 | selection = combo.GetValue() |
---|
1204 | mass = self.source_mass[selection] |
---|
1205 | self.resolution.set_neutron_mass(mass) |
---|
1206 | source_hint = "Source Selection: Affect on" |
---|
1207 | source_hint += " the gravitational contribution.\n" |
---|
1208 | source_hint += "Mass of %s: m = %s [g]" % \ |
---|
1209 | (selection, str(self.resolution.get_neutron_mass())) |
---|
1210 | # source_tip.SetTip(source_hint) |
---|
1211 | self.mass_txt.ToolTip.SetTip(source_hint) |
---|
1212 | |
---|
1213 | def _on_source_color(self, event=None): |
---|
1214 | """ |
---|
1215 | On source color combobox selection |
---|
1216 | """ |
---|
1217 | if event is not None: |
---|
1218 | #combo = event.GetEventObject() |
---|
1219 | event.Skip() |
---|
1220 | #else: |
---|
1221 | combo = self.wave_color_cb |
---|
1222 | selection = combo.GetValue() |
---|
1223 | self.wave_color = selection |
---|
1224 | if self.wave_color.lower() == 'tof': |
---|
1225 | list = self.resolution.get_wave_list() |
---|
1226 | minw = min(list[0]) |
---|
1227 | if len(list[0]) < 2: |
---|
1228 | maxw = 2 * minw |
---|
1229 | else: |
---|
1230 | maxw = max(list[0]) |
---|
1231 | self.wavelength_tcl.SetValue('%s - %s' % (minw, maxw)) |
---|
1232 | minw = min(list[1]) |
---|
1233 | maxw = max(list[1]) |
---|
1234 | self.wavelength_spread_tcl.SetValue('%s - %s' % (minw, maxw)) |
---|
1235 | spectrum_val = self.spectrum_cb.GetValue() |
---|
1236 | self.resolution.set_spectrum(self.spectrum_dic[spectrum_val]) |
---|
1237 | self.spectrum_txt.Show(True) |
---|
1238 | self.spectrum_cb.Show(True) |
---|
1239 | |
---|
1240 | else: |
---|
1241 | wavelength = self.resolution.get_wavelength() |
---|
1242 | wavelength_spread = self.resolution.get_wavelength_spread() |
---|
1243 | self.wavelength_tcl.SetValue(str(wavelength)) |
---|
1244 | self.wavelength_spread_tcl.SetValue(str(wavelength_spread)) |
---|
1245 | self.resolution.set_spectrum(self.spectrum_dic['Flat']) |
---|
1246 | self.spectrum_txt.Show(False) |
---|
1247 | self.spectrum_cb.Show(False) |
---|
1248 | self.wavelength_sizer.Layout() |
---|
1249 | self.Layout() |
---|
1250 | |
---|
1251 | def _on_spectrum_cb(self, event=None): |
---|
1252 | """ |
---|
1253 | On spectrum ComboBox event |
---|
1254 | """ |
---|
1255 | if event is not None: |
---|
1256 | #combo = event.GetEventObject() |
---|
1257 | event.Skip() |
---|
1258 | else: |
---|
1259 | raise |
---|
1260 | selection = self.spectrum_cb.GetValue() |
---|
1261 | if selection == 'Add new': |
---|
1262 | path = self._selectDlg() |
---|
1263 | if path is None: |
---|
1264 | self.spectrum_cb.SetValue('Flat') |
---|
1265 | self.resolution.set_spectrum(self.spectrum_dic['Flat']) |
---|
1266 | msg = "No file has been chosen." |
---|
1267 | wx.MessageBox(msg, 'Info') |
---|
1268 | return |
---|
1269 | try: |
---|
1270 | basename = os.path.basename(path) |
---|
1271 | if basename not in self.spectrum_dic.keys(): |
---|
1272 | self.spectrum_cb.Append(basename) |
---|
1273 | self.spectrum_dic[basename] = self._read_file(path) |
---|
1274 | self.spectrum_cb.SetValue(basename) |
---|
1275 | self.resolution.set_spectrum(self.spectrum_dic[basename]) |
---|
1276 | return |
---|
1277 | except: |
---|
1278 | raise |
---|
1279 | |
---|
1280 | self.resolution.set_spectrum(self.spectrum_dic[selection]) |
---|
1281 | |
---|
1282 | def _selectDlg(self): |
---|
1283 | """ |
---|
1284 | open a dialog file to select a customized spectrum |
---|
1285 | """ |
---|
1286 | dlg = wx.FileDialog(self, |
---|
1287 | "Choose a wavelength spectrum file: Intensity vs. wavelength", |
---|
1288 | self.parent.parent.get_save_location() , "", "*.*", wx.OPEN) |
---|
1289 | path = None |
---|
1290 | if dlg.ShowModal() == wx.ID_OK: |
---|
1291 | path = dlg.GetPath() |
---|
1292 | dlg.Destroy() |
---|
1293 | return path |
---|
1294 | |
---|
1295 | def _read_file(self, path): |
---|
1296 | """ |
---|
1297 | Read two columns file as tuples of numpy array |
---|
1298 | |
---|
1299 | :param path: the path to the file to read |
---|
1300 | |
---|
1301 | """ |
---|
1302 | try: |
---|
1303 | if path is None: |
---|
1304 | wx.PostEvent(self.parent.parent, StatusEvent(status=\ |
---|
1305 | " Selected Distribution was not loaded: %s" % path)) |
---|
1306 | return None, None |
---|
1307 | input_f = open(path, 'r') |
---|
1308 | buff = input_f.read() |
---|
1309 | lines = buff.split('\n') |
---|
1310 | |
---|
1311 | wavelength = [] |
---|
1312 | intensity = [] |
---|
1313 | for line in lines: |
---|
1314 | toks = line.split() |
---|
1315 | try: |
---|
1316 | wave = float(toks[0]) |
---|
1317 | intens = float(toks[1]) |
---|
1318 | wavelength.append(wave) |
---|
1319 | intensity.append(intens) |
---|
1320 | except: |
---|
1321 | # Skip non-data lines |
---|
1322 | logger.error(sys.exc_value) |
---|
1323 | |
---|
1324 | return [wavelength, intensity] |
---|
1325 | except: |
---|
1326 | raise |
---|
1327 | |
---|
1328 | class ResolutionWindow(widget.CHILD_FRAME): |
---|
1329 | """ |
---|
1330 | Resolution Window |
---|
1331 | """ |
---|
1332 | def __init__(self, parent=None, manager=None, |
---|
1333 | title="Q Resolution Estimator", |
---|
1334 | size=(PANEL_WIDTH * 2, PANEL_HEIGHT), *args, **kwds): |
---|
1335 | kwds['title'] = title |
---|
1336 | kwds['size'] = size |
---|
1337 | widget.CHILD_FRAME.__init__(self, parent=parent, *args, **kwds) |
---|
1338 | self.parent = parent |
---|
1339 | self.manager = manager |
---|
1340 | self.panel = ResolutionCalculatorPanel(parent=self) |
---|
1341 | self.Bind(wx.EVT_CLOSE, self.OnClose) |
---|
1342 | self.SetPosition((wx.LEFT, PANEL_TOP)) |
---|
1343 | self.Show(True) |
---|
1344 | |
---|
1345 | def OnClose(self, event): |
---|
1346 | """ |
---|
1347 | On close event |
---|
1348 | """ |
---|
1349 | _pylab_helpers.Gcf.figs = {} |
---|
1350 | if self.manager is not None: |
---|
1351 | self.manager.cal_res_frame = None |
---|
1352 | self.Destroy() |
---|
1353 | |
---|
1354 | |
---|
1355 | if __name__ == "__main__": |
---|
1356 | app = wx.PySimpleApp() |
---|
1357 | widget.CHILD_FRAME = wx.Frame |
---|
1358 | frame = ResolutionWindow() |
---|
1359 | frame.Show(True) |
---|
1360 | app.MainLoop() |
---|