source: sasview/src/sas/sasgui/perspectives/calculator/calculator.py @ cd10013

magnetic_scattrelease-4.2.2ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249unittest-saveload
Last change on this file since cd10013 was 61bfd36, checked in by smk78, 7 years ago

Make jitter viewer available from Tools

  • Property mode set to 100644
File size: 8.8 KB
Line 
1"""
2Calculator Module
3"""
4################################################################################
5#This software was developed by the University of Tennessee as part of the
6#Distributed Data Analysis of Neutron Scattering Experiments (DANSE)
7#project funded by the US National Science Foundation.
8#
9#See the license text in license.txt
10#
11#copyright 2010, University of Tennessee
12################################################################################
13
14import wx
15from sas.sasgui.guiframe.plugin_base import PluginBase
16from sas.sasgui.perspectives.calculator.data_operator import DataOperatorWindow
17from sas.sasgui.perspectives.calculator.data_editor import DataEditorWindow
18from sas.sasgui.perspectives.calculator.kiessig_calculator_panel import KiessigWindow
19from sas.sasgui.perspectives.calculator.sld_panel import SldWindow
20from sas.sasgui.perspectives.calculator.density_panel import DensityWindow
21from sas.sasgui.perspectives.calculator.slit_length_calculator_panel \
22            import SlitLengthCalculatorWindow
23from sas.sasgui.perspectives.calculator.resolution_calculator_panel \
24            import ResolutionWindow
25from sas.sasgui.perspectives.calculator.gen_scatter_panel import SasGenWindow
26from sas.sasgui.perspectives.calculator.image_viewer import ImageView
27from sas.sasgui.perspectives.calculator.pyconsole import PyConsole
28import logging
29
30logger = logging.getLogger(__name__)
31
32class Plugin(PluginBase):
33    """
34    This class defines the interface for a Plugin class
35    for calculator perspective
36    """
37    def __init__(self):
38        PluginBase.__init__(self, name="Calculator")
39        # Log startup
40        logger.info("Calculator plug-in started")
41        self.sub_menu = "Tool"
42        self.data_edit_frame = None
43        # data operator use one frame all the time
44        self.data_operator_frame = None
45        self.kiessig_frame = None
46        self.sld_frame = None
47        self.cal_md_frame = None
48        self.cal_slit_frame = None
49        self.cal_res_frame = None
50        self.gen_frame = None
51        self.image_view = None
52        self.py_frame = None
53
54
55    def get_tools(self):
56        """
57        Returns a set of menu entries for tools
58        """
59        data_oper_help = "Perform arithmetic data operation (+...) "
60        data_oper_help += "and combination (|)"
61        kiessig_help = "Approximately computes the "
62        kiessig_help += "thickness of a shell or the size of "
63        kiessig_help += "particles \n from the width of a Kiessig fringe."
64        sld_help = "Computes the Scattering Length Density."
65        slit_length_help = "Computes the slit length from the beam profile."
66        resolution_help = "Approximately estimates the "
67        resolution_help += "resolution of Q in 2D based on the SAS "
68        resolution_help += "instrumental parameter values."
69        mass_volume_help = "Based on the chemical formula, "
70        mass_volume_help += "compute the mass density or the molar volume."
71        gensas_help = "Generic SAS"
72        pyconsole_help = "Python Console."
73        imageviewer_help = "Load an image file and display the image."
74        #data_editor_help = "Meta Data Editor"
75        return [("Data Operation",
76                        data_oper_help, self.on_data_operation),
77                ("SLD Calculator", sld_help, self.on_calculate_sld),
78                ("Density/Volume Calculator", mass_volume_help,
79                                            self.on_calculate_dv),
80                ("Slit Size Calculator", slit_length_help,
81                        self.on_calculate_slit_size),
82                ("Kiessig Thickness Calculator",
83                        kiessig_help, self.on_calculate_kiessig),
84                          ("Q Resolution Estimator",
85                        resolution_help, self.on_calculate_resoltuion),
86                ("Generic Scattering Calculator",
87                        gensas_help, self.on_gen_model),
88                ("Orientation Viewer", "Show 3-D view of oriented shape", self.on_show_orientation),
89                ("Python Shell/Editor", pyconsole_help, self.on_python_console),
90                ("Image Viewer", imageviewer_help, self.on_image_viewer), ]
91
92    def on_edit_data(self, event):
93        """
94        Edit meta data
95        """
96        if self.data_edit_frame is None:
97            self.data_edit_frame = DataEditorWindow(parent=self.parent,
98                                                    manager=self, data=[],
99                                                    title="Data Editor")
100            self.put_icon(self.data_edit_frame)
101        else:
102            self.data_edit_frame.Show(False)
103        self.data_edit_frame.Show(True)
104
105    def on_data_operation(self, event):
106        """
107        Data operation
108        """
109        if self.data_operator_frame is None:
110            # Use one frame all the time
111            self.data_operator_frame = DataOperatorWindow(parent=self.parent,
112                                                manager=self,
113                                                title="Data Operation")
114            self.put_icon(self.data_operator_frame)
115        else:
116            self.data_operator_frame.Show(False)
117        self.data_operator_frame.panel.set_panel_on_focus(None)
118        self.data_operator_frame.Show(True)
119
120    def on_calculate_kiessig(self, event):
121        """
122        Compute the Kiessig thickness
123        """
124        if self.kiessig_frame is None:
125            frame = KiessigWindow(parent=self.parent, manager=self)
126            self.put_icon(frame)
127            self.kiessig_frame = frame
128        else:
129            self.kiessig_frame.Show(False)
130        self.kiessig_frame.Show(True)
131
132    def on_calculate_sld(self, event):
133        """
134        Compute the scattering length density of molecula
135        """
136        if self.sld_frame is None:
137            frame = SldWindow(parent=self.parent,
138                                  base=self.parent, manager=self)
139            self.put_icon(frame)
140            self.sld_frame = frame
141        else:
142            self.sld_frame.Show(False)
143        self.sld_frame.Show(True)
144
145    def on_calculate_dv(self, event):
146        """
147        Compute the mass density or molar voulme
148        """
149        if self.cal_md_frame is None:
150            frame = DensityWindow(parent=self.parent,
151                                  base=self.parent, manager=self)
152            self.put_icon(frame)
153            self.cal_md_frame = frame
154        else:
155            self.cal_md_frame.Show(False)
156        self.cal_md_frame.Show(True)
157
158    def on_calculate_slit_size(self, event):
159        """
160        Compute the slit size a given data
161        """
162        if self.cal_slit_frame is None:
163            frame = SlitLengthCalculatorWindow(parent=self.parent, manager=self)
164            self.put_icon(frame)
165            self.cal_slit_frame = frame
166        else:
167            self.cal_slit_frame.Show(False)
168        self.cal_slit_frame.Show(True)
169
170    def on_calculate_resoltuion(self, event):
171        """
172        Estimate the instrumental resolution
173        """
174        if self.cal_res_frame is None:
175            frame = ResolutionWindow(parent=self.parent, manager=self)
176            self.put_icon(frame)
177            self.cal_res_frame = frame
178        else:
179            self.cal_res_frame.Show(False)
180        self.cal_res_frame.Show(True)
181
182    def on_gen_model(self, event):
183        """
184        On Generic model menu event
185        """
186        if self.gen_frame is None:
187            frame = SasGenWindow(parent=self.parent, manager=self)
188            self.put_icon(frame)
189            self.gen_frame = frame
190        else:
191            self.gen_frame.Show(False)
192        self.gen_frame.Show(True)
193
194    def on_show_orientation(self, event):
195        """
196        Make sasmodels orientation & jitter viewer available
197        """
198        from sasmodels.jitter import run
199        run()
200
201    def on_image_viewer(self, event):
202        """
203        Get choose an image file dialog
204
205        :param event: menu event
206        """
207        self.image_view = ImageView(parent=self.parent)
208        self.image_view.load()
209
210    def on_python_console(self, event):
211        """
212        Open Python Console
213
214        :param event: menu event
215        """
216        self.get_python_panel(filename=None)
217
218    def get_python_panel(self, filename=None):
219        """
220        Get the python shell panel
221
222        :param filename: file name to open in editor
223        """
224        if self.py_frame is None:
225            frame = PyConsole(parent=self.parent, base=self,
226                              filename=filename)
227            self.put_icon(frame)
228            self.py_frame = frame
229        else:
230            self.py_frame.Show(False)
231        self.py_frame.Show(True)
232
233    def put_icon(self, frame):
234        """
235        Put icon in the frame title bar
236        """
237        if hasattr(frame, "IsIconized"):
238            if not frame.IsIconized():
239                try:
240                    icon = self.parent.GetIcon()
241                    frame.SetIcon(icon)
242                except:
243                    pass
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