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perspectives

Timestamp:

Feb 7, 2017 12:05:10 PM (7 years ago)

Author:

GitHub <noreply@…>

Branches:

master, ESS_GUI, ESS_GUI_Docs, ESS_GUI_batch_fitting, ESS_GUI_bumps_abstraction, ESS_GUI_iss1116, ESS_GUI_iss879, ESS_GUI_iss959, ESS_GUI_opencl, ESS_GUI_ordering, ESS_GUI_sync_sascalc, costrafo411, magnetic_scatt, release-4.1.1, release-4.1.2, release-4.2.2, ticket-1009, ticket-1094-headless, ticket-1242-2d-resolution, ticket-1243, ticket-1249, ticket885, unittest-saveload

Children:

a99a4045, 1a8e13f0, b61bd57, 03137f1, 18da4a8, 1e13b53

Parents:

2ab9c432 (diff), bcabf4e (diff)
Note: this is a merge changeset, the changes displayed below correspond to the merge itself.
Use the (diff) links above to see all the changes relative to each parent.

git-author:

Paul Kienzle <pkienzle@…> (02/07/17 12:05:10)

git-committer:

GitHub <noreply@…> (02/07/17 12:05:10)

Message:

Merge pull request #30 from SasView?/ticket-827

Fixes #795, #819, #827, #847

Location:

src/sas/sasgui/perspectives

Files:

: 1 added
: 13 edited

fitting/basepage.py (modified) (4 diffs)
fitting/fitpage.py (modified) (1 diff)
fitting/models.py (modified) (2 diffs)
fitting/pagestate.py (modified) (10 diffs)
invariant/invariant_state.py (modified) (2 diffs)
corfunc/corfunc.py (modified) (5 diffs)
corfunc/corfunc_panel.py (modified) (3 diffs)
corfunc/corfunc_state.py (modified) (2 diffs)
corfunc/plot_labels.py (modified) (1 diff)
fitting/fitting.py (modified) (3 diffs)
fitting/gpu_options.py (added)
fitting/media/plugin.rst (modified) (4 diffs)
fitting/media/sm_help.rst (modified) (1 diff)
pr/media/pr_help.rst (modified) (3 diffs)

Legend:

: Unmodified
: Added
: Removed

src/sas/sasgui/perspectives/fitting/basepage.py

-                      r505706a
+                      ra6fccd7
         """
         for key, value in self.master_category_dict.iteritems():
+            formfactor = state.formfactorcombobox.split(":")
+            if isinstance(formfactor, list):
+                formfactor = formfactor[0]
             for list_item in value:
                 if state.formfactorcombobox in list_item:
+                if formfactor in list_item:
                     return self.categorybox.Items.index(key)
         return 0
 …
         self._show_combox_helper()
         # select the current model
+        try:
+            # to support older version
+            category_pos = int(state.categorycombobox)
+        except:
+            state.formfactorcombobox = state.formfactorcombobox.lower()
+            state.formfactorcombobox = \
+                state.formfactorcombobox.replace('model', '')
+            state.formfactorcombobox = unicode(state.formfactorcombobox)
+            state.categorycombobox = unicode(state.categorycombobox)
+            if state.categorycombobox in self.categorybox.Items:
+                category_pos = self.categorybox.Items.index(
+                    state.categorycombobox)
+            else:
+                # Look in master list for model name (model.lower)
+                category_pos = self.get_cat_combo_box_pos(state)
+        state._convert_to_sasmodels()
+        state.categorycombobox = unicode(state.categorycombobox)
+        if state.categorycombobox in self.categorybox.Items:
+            category_pos = self.categorybox.Items.index(
+                state.categorycombobox)
+        else:
+            # Look in master list for model name (model.lower)
+            category_pos = self.get_cat_combo_box_pos(state)
         self.categorybox.Select(category_pos)
         self._show_combox(None)
+        try:
+            # to support older version
+            formfactor_pos = int(state.formfactorcombobox)
+        except:
+            formfactor_pos = 0
+            for ind_form in range(self.formfactorbox.GetCount()):
+                if self.formfactorbox.GetString(ind_form) == \
+                                                    (state.formfactorcombobox):
+                    formfactor_pos = int(ind_form)
+        from models import PLUGIN_NAME_BASE
+        if self.categorybox.GetValue() == 'Customized Models' \
+                and PLUGIN_NAME_BASE not in state.formfactorcombobox:
+            state.formfactorcombobox = \
+                PLUGIN_NAME_BASE + state.formfactorcombobox
+        formfactor_pos = 0
+        for ind_form in range(self.formfactorbox.GetCount()):
+            if self.formfactorbox.GetString(ind_form) == \
+                                                (state.formfactorcombobox):
+                formfactor_pos = int(ind_form)
+                break
+        self.formfactorbox.Select(formfactor_pos)
+        structfactor_pos = 0
+        if state.structurecombobox is not None:
+            state.structurecombobox = unicode(state.structurecombobox)
+            for ind_struct in range(self.structurebox.GetCount()):
+                if self.structurebox.GetString(ind_struct) == \
+                                                (state.structurecombobox):
+                    structfactor_pos = int(ind_struct)
                     break
-        self.formfactorbox.Select(formfactor_pos)
-        structfactor_pos = 0
-        try:
-            # to support older version
-            structfactor_pos = int(state.structurecombobox)
-        except:
-            if state.structurecombobox is not None:
-                state.structurecombobox = unicode(state.structurecombobox)
-                for ind_struct in range(self.structurebox.GetCount()):
-                    if self.structurebox.GetString(ind_struct) == \
-                                                    (state.structurecombobox):
-                        structfactor_pos = int(ind_struct)
-                        break
         self.structurebox.SetSelection(structfactor_pos)
 …
         # self.state.struct_rbutton = self.struct_rbutton.GetValue()
         # self.state.plugin_rbutton = self.plugin_rbutton.GetValue()
         self.state.structurecombobox = self.structurebox.GetLabel()
         self.state.formfactorcombobox = self.formfactorbox.GetLabel()
         self.state.categorycombobox = self.categorybox.GetLabel()
+        self.state.structurecombobox = self.structurebox.GetValue()
+        self.state.formfactorcombobox = self.formfactorbox.GetValue()
+        self.state.categorycombobox = self.categorybox.GetValue()
         # post state to fit panel
 …
         if len(statelist) == 0 or len(listtorestore) == 0:
             return
-        if len(statelist) != len(listtorestore):
-            return
         for j in range(len(listtorestore)):
+            item_page = listtorestore[j]
+            item_page_info = statelist[j]
+            # change the state of the check box for simple parameters
+            if item_page[0] is not None:
+                item_page[0].SetValue(item_page_info[0])
+            if item_page[2] is not None:
+                item_page[2].SetValue(item_page_info[2])
+                if item_page[2].__class__.__name__ == "ComboBox":
+                    if item_page_info[2] in self.model.fun_list:
+                        fun_val = self.model.fun_list[item_page_info[2]]
+                        self.model.setParam(item_page_info[1], fun_val)
+            if item_page[3] is not None:
+                # show or hide text +/-
+                if item_page_info[2]:
+                    item_page[3].Show(True)
+                else:
+                    item_page[3].Hide()
+            if item_page[4] is not None:
+                # show of hide the text crtl for fitting error
+                if item_page_info[4][0]:
+                    item_page[4].Show(True)
+                    item_page[4].SetValue(item_page_info[4][1])
+                else:
+                    item_page[3].Hide()
+            if item_page[5] is not None:
+                # show of hide the text crtl for fitting error
+                item_page[5].Show(item_page_info[5][0])
+                item_page[5].SetValue(item_page_info[5][1])
+            if item_page[6] is not None:
+                # show of hide the text crtl for fitting error
+                item_page[6].Show(item_page_info[6][0])
+                item_page[6].SetValue(item_page_info[6][1])
+            for param in statelist:
+                if param[1] == listtorestore[j][1]:
+                    item_page = listtorestore[j]
+                    item_page_info = param
+                    if (item_page_info[1] == "theta" or item_page_info[1] ==
+                            "phi") and not self._is_2D():
+                        break
+                    # change the state of the check box for simple parameters
+                    if item_page[0] is not None:
+                        item_page[0].SetValue(item_page_info[0])
+                    if item_page[2] is not None:
+                        item_page[2].SetValue(item_page_info[2])
+                        if item_page[2].__class__.__name__ == "ComboBox":
+                            if item_page_info[2] in self.model.fun_list:
+                                fun_val = self.model.fun_list[item_page_info[2]]
+                                self.model.setParam(item_page_info[1], fun_val)
+                    if item_page[3] is not None:
+                        # show or hide text +/-
+                        if item_page_info[2]:
+                            item_page[3].Show(True)
+                        else:
+                            item_page[3].Hide()
+                    if item_page[4] is not None:
+                        # show of hide the text crtl for fitting error
+                        if item_page_info[4][0]:
+                            item_page[4].Show(True)
+                            item_page[4].SetValue(str(item_page_info[4][1]))
+                        else:
+                            item_page[3].Hide()
+                    if item_page[5] is not None:
+                        # show of hide the text crtl for fitting error
+                        item_page[5].Show(True)
+                        item_page[5].SetValue(str(item_page_info[5][1]))
+                    if item_page[6] is not None:
+                        # show of hide the text crtl for fitting error
+                        item_page[6].Show(True)
+                        item_page[6].SetValue(str(item_page_info[6][1]))
+                    break
     def _reset_strparam_state(self, listtorestore, statelist):

src/sas/sasgui/perspectives/fitting/fitpage.py

-                      r24fd27a
+                      ra6fccd7
         self.state.slit_smearer = self.slit_smearer.GetValue()
+        self.state.structurecombobox = self.structurebox.GetLabel()
+        self.state.formfactorcombobox = self.formfactorbox.GetLabel()
+        self.state.structurecombobox = self.structurebox.GetValue()
+        self.state.formfactorcombobox = self.formfactorbox.GetValue()
+        self.state.categorycombobox = self.categorybox.GetValue()
         self.enable_fit_button()
         if self.model is not None:

src/sas/sasgui/perspectives/fitting/models.py

-                      r313c5c9
+                      r0de74af
 PLUGIN_LOG = os.path.join(os.path.expanduser("~"), '.sasview', PLUGIN_DIR,
                           "plugins.log")
+PLUGIN_NAME_BASE = '[plug-in] '
 def get_model_python_path():
 …
             try:
                 model = load_custom_model(path)
                 model.name = "[plug-in] "+model.name
+                model.name = PLUGIN_NAME_BASE + model.name
                 plugins[model.name] = model
             except Exception:

src/sas/sasgui/perspectives/fitting/pagestate.py

-                      rc8e1996
+                      r6d2b50b
 from lxml import etree
+from sasmodels import convert
 import sasmodels.weights
 …
         # store value of chisqr
         self.tcChi = None
+        self.version = (1,0,0)
     def clone(self):
 …
         obj.cb1 = copy.deepcopy(self.cb1)
         obj.smearer = copy.deepcopy(self.smearer)
+        obj.version = copy.deepcopy(self.version)
         for name, state in self.saved_states.iteritems():
 …
             obj.saved_states[copy_name] = copy_state
         return obj
+    def _old_first_model(self):
+        """
+        Handle save states from 4.0.1 and before where the first item in the
+        selection boxes of category, formfactor and structurefactor were not
+        saved.
+        :return: None
+        """
+        if self.formfactorcombobox == '':
+            FIRST_FORM = {
+                'Shapes' : 'BCCrystalModel',
+                'Uncategorized' : 'LineModel',
+                'StructureFactor' : 'HardsphereStructure',
+                'Ellipsoid' : 'core_shell_ellipsoid',
+                'Lamellae' : 'lamellar',
+                'Paracrystal' : 'bcc_paracrystal',
+                'Parallelepiped' : 'core_shell_parallelepiped',
+                'Shape Independent' : 'be_polyelectrolyte',
+                'Sphere' : 'adsorbed_layer',
+                'Structure Factor' : 'hardsphere',
+                'Customized Models' : ''
+            }
+            if self.categorycombobox == '':
+                if len(self.parameters) == 3:
+                    self.categorycombobox = "Shape-Independent"
+                    self.formfactorcombobox = 'PowerLawAbsModel'
+                elif len(self.parameters) == 9:
+                    self.categorycombobox = 'Cylinder'
+                    self.formfactorcombobox = 'barbell'
+                else:
+                    msg = "Save state does not have enough information to load"
+                    msg += " the all of the data."
+                    logging.warning(msg=msg)
+            else:
+                self.formfactorcombobox = FIRST_FORM[self.categorycombobox]
+    @staticmethod
+    def param_remap_to_sasmodels_convert(params, is_string=False):
+        """
+        Remaps the parameters for sasmodels conversion
+        :param params: list of parameters (likely self.parameters)
+        :return: remapped dictionary of parameters
+        """
+        p = dict()
+        for fittable, name, value, _, uncert, lower, upper, units in params:
+            if not value:
+                value = numpy.nan
+            if not uncert or uncert[1] == '' or uncert[1] == 'None':
+                uncert[0] = False
+                uncert[1] = numpy.nan
+            if not upper or upper[1] == '' or upper[1] == 'None':
+                upper[0] = False
+                upper[1] = numpy.nan
+            if not lower or lower[1] == '' or lower[1] == 'None':
+                lower[0] = False
+                lower[1] = numpy.nan
+            if is_string:
+                p[name] = str(value)
+            else:
+                p[name] = float(value)
+            p[name + ".fittable"] = bool(fittable)
+            p[name + ".std"] = float(uncert[1])
+            p[name + ".upper"] = float(upper[1])
+            p[name + ".lower"] = float(lower[1])
+            p[name + ".units"] = units
+        return p
+    @staticmethod
+    def param_remap_from_sasmodels_convert(params):
+        """
+        Converts {name : value} map back to [] param list
+        :param params: parameter map returned from sasmodels
+        :return: None
+        """
+        p_map = []
+        for name, info in params.iteritems():
+            if ".fittable" in name or ".std" in name or ".upper" in name or \
+                            ".lower" in name or ".units" in name:
+                pass
+            else:
+                fittable = params.get(name + ".fittable", True)
+                std = params.get(name + ".std", '0.0')
+                upper = params.get(name + ".upper", 'inf')
+                lower = params.get(name + ".lower", '-inf')
+                units = params.get(name + ".units")
+                if std is not None and std is not numpy.nan:
+                    std = [True, str(std)]
+                else:
+                    std = [False, '']
+                if lower is not None and lower is not numpy.nan:
+                    lower = [True, str(lower)]
+                else:
+                    lower = [True, '-inf']
+                if upper is not None and upper is not numpy.nan:
+                    upper = [True, str(upper)]
+                else:
+                    upper = [True, 'inf']
+                param_list = [bool(fittable), str(name), str(info),
+                              "+/-", std, lower, upper, str(units)]
+                p_map.append(param_list)
+        return p_map
+    def _convert_to_sasmodels(self):
+        """
+        Convert parameters to a form usable by sasmodels converter
+        :return: None
+        """
+        # Create conversion dictionary to send to sasmodels
+        self._old_first_model()
+        p = self.param_remap_to_sasmodels_convert(self.parameters)
+        structurefactor, params = convert.convert_model(self.structurecombobox,
+                                                        p, False, self.version)
+        formfactor, params = convert.convert_model(self.formfactorcombobox,
+                                                   params, False, self.version)
+        if len(self.str_parameters) > 0:
+            str_pars = self.param_remap_to_sasmodels_convert(
+                self.str_parameters, True)
+            formfactor, str_params = convert.convert_model(
+                self.formfactorcombobox, str_pars, False, self.version)
+            for key, value in str_params.iteritems():
+                params[key] = value
+        if self.formfactorcombobox == 'SphericalSLDModel':
+            self.multi_factor += 1
+        self.formfactorcombobox = formfactor
+        self.structurecombobox = structurefactor
+        self.parameters = []
+        self.parameters = self.param_remap_from_sasmodels_convert(params)
     def _repr_helper(self, list, rep):
 …
         attr = newdoc.createAttribute("version")
+        attr.nodeValue = '1.0'
+        import sasview
+        attr.nodeValue = sasview.__version__
+        # attr.nodeValue = '1.0'
         top_element.setAttributeNode(attr)
 …
             raise RuntimeError, msg
+        if node.get('version') and node.get('version') == '1.0':
+        if node.get('version'):
+            # Get the version for model conversion purposes
+            self.version = tuple(int(e) for e in
+                                 str.split(node.get('version'), "."))
+            # The tuple must be at least 3 items long
+            while len(self.version) < 3:
+                ver_list = list(self.version)
+                ver_list.append(0)
+                self.version = tuple(ver_list)
             # Get file name
 …
         if self.cansas:
             return self._read_cansas(path)
-    def _data2d_to_xml_doc(self, datainfo):
-        """
-        Create an XML document to contain the content of a Data2D
-        :param datainfo: Data2D object
-        """
-        if not issubclass(datainfo.__class__, Data2D):
-            raise RuntimeError, "The cansas writer expects a Data2D instance"
-        title = "cansas1d/%s" % self.version
-        title += "http://svn.smallangles.net/svn/canSAS/1dwg/trunk/cansas1d.xsd"
-        doc = xml.dom.minidom.Document()
-        main_node = doc.createElement("SASroot")
-        main_node.setAttribute("version", self.version)
-        main_node.setAttribute("xmlns", "cansas1d/%s" % self.version)
-        main_node.setAttribute("xmlns:xsi",
-                               "http://www.w3.org/2001/XMLSchema-instance")
-        main_node.setAttribute("xsi:schemaLocation", title)
-        doc.appendChild(main_node)
-        entry_node = doc.createElement("SASentry")
-        main_node.appendChild(entry_node)
-        write_node(doc, entry_node, "Title", datainfo.title)
-        if datainfo is not None:
-            write_node(doc, entry_node, "data_class",
-                       datainfo.__class__.__name__)
-        for item in datainfo.run:
-            runname = {}
-            if item in datainfo.run_name and \
-                            len(str(datainfo.run_name[item])) > 1:
-                runname = {'name': datainfo.run_name[item]}
-            write_node(doc, entry_node, "Run", item, runname)
-        # Data info
-        new_node = doc.createElement("SASdata")
-        entry_node.appendChild(new_node)
-        for item in LIST_OF_DATA_2D_ATTR:
-            element = doc.createElement(item[0])
-            element.setAttribute(item[0], str(getattr(datainfo, item[1])))
-            new_node.appendChild(element)
-        for item in LIST_OF_DATA_2D_VALUES:
-            root_node = doc.createElement(item[0])
-            new_node.appendChild(root_node)
-            temp_list = getattr(datainfo, item[1])
-            if temp_list is None or len(temp_list) == 0:
-                element = doc.createElement(item[0])
-                element.appendChild(doc.createTextNode(str(temp_list)))
-                root_node.appendChild(element)
-            else:
-                for value in temp_list:
-                    element = doc.createElement(item[0])
-                    element.setAttribute(item[0], str(value))
-                    root_node.appendChild(element)
-        # Sample info
-        sample = doc.createElement("SASsample")
-        if datainfo.sample.name is not None:
-            sample.setAttribute("name", str(datainfo.sample.name))
-        entry_node.appendChild(sample)
-        write_node(doc, sample, "ID", str(datainfo.sample.ID))
-        write_node(doc, sample, "thickness", datainfo.sample.thickness,
-                   {"unit": datainfo.sample.thickness_unit})
-        write_node(doc, sample, "transmission", datainfo.sample.transmission)
-        write_node(doc, sample, "temperature", datainfo.sample.temperature,
-                   {"unit": datainfo.sample.temperature_unit})
-        for item in datainfo.sample.details:
-            write_node(doc, sample, "details", item)
-        pos = doc.createElement("position")
-        written = write_node(doc, pos, "x", datainfo.sample.position.x,
-                             {"unit": datainfo.sample.position_unit})
-        written = written | write_node(doc, pos, "y",
-                                       datainfo.sample.position.y,
-                                       {"unit": datainfo.sample.position_unit})
-        written = written | write_node(doc, pos, "z",
-                                       datainfo.sample.position.z,
-                                       {"unit": datainfo.sample.position_unit})
-        if written:
-            sample.appendChild(pos)
-        ori = doc.createElement("orientation")
-        written = write_node(doc, ori, "roll", datainfo.sample.orientation.x,
-                             {"unit": datainfo.sample.orientation_unit})
-        written = written | write_node(doc, ori, "pitch",
-                                       datainfo.sample.orientation.y,
-                                       {"unit":
-                                            datainfo.sample.orientation_unit})
-        written = written | write_node(doc, ori, "yaw",
-                                       datainfo.sample.orientation.z,
-                                       {"unit":
-                                            datainfo.sample.orientation_unit})
-        if written:
-            sample.appendChild(ori)
-        # Instrument info
-        instr = doc.createElement("SASinstrument")
-        entry_node.appendChild(instr)
-        write_node(doc, instr, "name", datainfo.instrument)
-        #   Source
-        source = doc.createElement("SASsource")
-        if datainfo.source.name is not None:
-            source.setAttribute("name", str(datainfo.source.name))
-        instr.appendChild(source)
-        write_node(doc, source, "radiation", datainfo.source.radiation)
-        write_node(doc, source, "beam_shape", datainfo.source.beam_shape)
-        size = doc.createElement("beam_size")
-        if datainfo.source.beam_size_name is not None:
-            size.setAttribute("name", str(datainfo.source.beam_size_name))
-        written = write_node(doc, size, "x", datainfo.source.beam_size.x,
-                             {"unit": datainfo.source.beam_size_unit})
-        written = written | write_node(doc, size, "y",
-                                       datainfo.source.beam_size.y,
-                                       {"unit": datainfo.source.beam_size_unit})
-        written = written | write_node(doc, size, "z",
-                                       datainfo.source.beam_size.z,
-                                       {"unit": datainfo.source.beam_size_unit})
-        if written:
-            source.appendChild(size)
-        write_node(doc, source, "wavelength", datainfo.source.wavelength,
-                   {"unit": datainfo.source.wavelength_unit})
-        write_node(doc, source, "wavelength_min",
-                   datainfo.source.wavelength_min,
-                   {"unit": datainfo.source.wavelength_min_unit})
-        write_node(doc, source, "wavelength_max",
-                   datainfo.source.wavelength_max,
-                   {"unit": datainfo.source.wavelength_max_unit})
-        write_node(doc, source, "wavelength_spread",
-                   datainfo.source.wavelength_spread,
-                   {"unit": datainfo.source.wavelength_spread_unit})
-        #   Collimation
-        for item in datainfo.collimation:
-            coll = doc.createElement("SAScollimation")
-            if item.name is not None:
-                coll.setAttribute("name", str(item.name))
-            instr.appendChild(coll)
-            write_node(doc, coll, "length", item.length,
-                       {"unit": item.length_unit})
-            for apert in item.aperture:
-                ap = doc.createElement("aperture")
-                if apert.name is not None:
-                    ap.setAttribute("name", str(apert.name))
-                if apert.type is not None:
-                    ap.setAttribute("type", str(apert.type))
-                coll.appendChild(ap)
-                write_node(doc, ap, "distance", apert.distance,
-                           {"unit": apert.distance_unit})
-                size = doc.createElement("size")
-                if apert.size_name is not None:
-                    size.setAttribute("name", str(apert.size_name))
-                written = write_node(doc, size, "x", apert.size.x,
-                                     {"unit": apert.size_unit})
-                written = written | write_node(doc, size, "y", apert.size.y,
-                                               {"unit": apert.size_unit})
-                written = written | write_node(doc, size, "z", apert.size.z,
-                                               {"unit": apert.size_unit})
-                if written:
-                    ap.appendChild(size)
-        #   Detectors
-        for item in datainfo.detector:
-            det = doc.createElement("SASdetector")
-            written = write_node(doc, det, "name", item.name)
-            written = written | write_node(doc, det, "SDD", item.distance,
-                                           {"unit": item.distance_unit})
-            written = written | write_node(doc, det, "slit_length",
-                                           item.slit_length,
-                                           {"unit": item.slit_length_unit})
-            if written:
-                instr.appendChild(det)
-            off = doc.createElement("offset")
-            written = write_node(doc, off, "x", item.offset.x,
-                                 {"unit": item.offset_unit})
-            written = written | write_node(doc, off, "y", item.offset.y,
-                                           {"unit": item.offset_unit})
-            written = written | write_node(doc, off, "z", item.offset.z,
-                                           {"unit": item.offset_unit})
-            if written:
-                det.appendChild(off)
-            center = doc.createElement("beam_center")
-            written = write_node(doc, center, "x", item.beam_center.x,
-                                 {"unit": item.beam_center_unit})
-            written = written | write_node(doc, center, "y",
-                                           item.beam_center.y,
-                                           {"unit": item.beam_center_unit})
-            written = written | write_node(doc, center, "z",
-                                           item.beam_center.z,
-                                           {"unit": item.beam_center_unit})
-            if written:
-                det.appendChild(center)
-            pix = doc.createElement("pixel_size")
-            written = write_node(doc, pix, "x", item.pixel_size.x,
-                                 {"unit": item.pixel_size_unit})
-            written = written | write_node(doc, pix, "y", item.pixel_size.y,
-                                           {"unit": item.pixel_size_unit})
-            written = written | write_node(doc, pix, "z", item.pixel_size.z,
-                                           {"unit": item.pixel_size_unit})
-            if written:
-                det.appendChild(pix)
-            ori = doc.createElement("orientation")
-            written = write_node(doc, ori, "roll", item.orientation.x,
-                                 {"unit": item.orientation_unit})
-            written = written | write_node(doc, ori, "pitch",
-                                           item.orientation.y,
-                                           {"unit": item.orientation_unit})
-            written = written | write_node(doc, ori, "yaw", item.orientation.z,
-                                           {"unit": item.orientation_unit})
-            if written:
-                det.appendChild(ori)
-        # Processes info
-        for item in datainfo.process:
-            node = doc.createElement("SASprocess")
-            entry_node.appendChild(node)
-            write_node(doc, node, "name", item.name)
-            write_node(doc, node, "date", item.date)
-            write_node(doc, node, "description", item.description)
-            for term in item.term:
-                value = term['value']
-                del term['value']
-                write_node(doc, node, "term", value, term)
-            for note in item.notes:
-                write_node(doc, node, "SASprocessnote", note)
-        # Return the document, and the SASentry node associated with
-        # the data we just wrote
-        return doc, entry_node
     def _parse_state(self, entry):
 …
         """
         node = dom.xpath('ns:data_class', namespaces={'ns': CANSAS_NS})
+        if not node or node[0].text.lstrip().rstrip() != "Data2D":
+            return_value, _ = self._parse_entry(dom)
+            numpy.trim_zeros(return_value.x)
+            numpy.trim_zeros(return_value.y)
+            numpy.trim_zeros(return_value.dy)
+            size_dx = return_value.dx.size
+            size_dxl = return_value.dxl.size
+            size_dxw = return_value.dxw.size
+            if size_dxl == 0 and size_dxw == 0:
+                return_value.dxl = None
+                return_value.dxw = None
+                numpy.trim_zeros(return_value.dx)
+            elif size_dx == 0:
+                return_value.dx = None
+                size_dx = size_dxl
+                numpy.trim_zeros(return_value.dxl)
+                numpy.trim_zeros(return_value.dxw)
+            return return_value, _
+        # Parse 2D
+        data_info = Data2D()
+        # Look up title
+        self._store_content('ns:Title', dom, 'title', data_info)
+        # Look up run number
+        nodes = dom.xpath('ns:Run', namespaces={'ns': CANSAS_NS})
+        for item in nodes:
+            if item.text is not None:
+                value = item.text.strip()
+                if len(value) > 0:
+                    data_info.run.append(value)
+                    if item.get('name') is not None:
+                        data_info.run_name[value] = item.get('name')
+        # Look up instrument name
+        self._store_content('ns:SASinstrument/ns:name', dom,
+                            'instrument', data_info)
+        # Notes
+        note_list = dom.xpath('ns:SASnote', namespaces={'ns': CANSAS_NS})
+        for note in note_list:
+            try:
+                if note.text is not None:
+                    note_value = note.text.strip()
+                    if len(note_value) > 0:
+                        data_info.notes.append(note_value)
+            except Exception:
+                err_mess = "cansas_reader.read: error processing entry notes\n"
+                err_mess += "  %s" % sys.exc_value
+                self.errors.append(err_mess)
+                logging.error(err_mess)
+        # Sample info ###################
+        entry = get_content('ns:SASsample', dom)
+        if entry is not None:
+            data_info.sample.name = entry.get('name')
+        self._store_content('ns:SASsample/ns:ID', dom, 'ID', data_info.sample)
+        self._store_float('ns:SASsample/ns:thickness', dom, 'thickness',
+                          data_info.sample)
+        self._store_float('ns:SASsample/ns:transmission', dom, 'transmission',
+                          data_info.sample)
+        self._store_float('ns:SASsample/ns:temperature', dom, 'temperature',
+                          data_info.sample)
+        nodes = dom.xpath('ns:SASsample/ns:details',
+                          namespaces={'ns': CANSAS_NS})
+        for item in nodes:
+            try:
+                if item.text is not None:
+                    detail_value = item.text.strip()
+                    if len(detail_value) > 0:
+                        data_info.sample.details.append(detail_value)
+            except Exception:
+                err_mess = "cansas_reader.read: error processing entry notes\n"
+                err_mess += "  %s" % sys.exc_value
+                self.errors.append(err_mess)
+                logging.error(err_mess)
+        # Position (as a vector)
+        self._store_float('ns:SASsample/ns:position/ns:x', dom, 'position.x',
+                          data_info.sample)
+        self._store_float('ns:SASsample/ns:position/ns:y', dom, 'position.y',
+                          data_info.sample)
+        self._store_float('ns:SASsample/ns:position/ns:z', dom, 'position.z',
+                          data_info.sample)
+        # Orientation (as a vector)
+        self._store_float('ns:SASsample/ns:orientation/ns:roll',
+                          dom, 'orientation.x', data_info.sample)
+        self._store_float('ns:SASsample/ns:orientation/ns:pitch',
+                          dom, 'orientation.y', data_info.sample)
+        self._store_float('ns:SASsample/ns:orientation/ns:yaw',
+                          dom, 'orientation.z', data_info.sample)
+        # Source info ###################
+        entry = get_content('ns:SASinstrument/ns:SASsource', dom)
+        if entry is not None:
+            data_info.source.name = entry.get('name')
+        self._store_content('ns:SASinstrument/ns:SASsource/ns:radiation',
+                            dom, 'radiation', data_info.source)
+        self._store_content('ns:SASinstrument/ns:SASsource/ns:beam_shape',
+                            dom, 'beam_shape', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:wavelength',
+                          dom, 'wavelength', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:wavelength_min',
+                          dom, 'wavelength_min', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:wavelength_max',
+                          dom, 'wavelength_max', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:wavelength_spread',
+                          dom, 'wavelength_spread', data_info.source)
+        # Beam size (as a vector)
+        entry = get_content('ns:SASinstrument/ns:SASsource/ns:beam_size', dom)
+        if entry is not None:
+            data_info.source.beam_size_name = entry.get('name')
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:beam_size/ns:x',
+                          dom, 'beam_size.x', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:beam_size/ns:y',
+                          dom, 'beam_size.y', data_info.source)
+        self._store_float('ns:SASinstrument/ns:SASsource/ns:beam_size/ns:z',
+                          dom, 'beam_size.z', data_info.source)
+        # Collimation info ###################
+        nodes = dom.xpath('ns:SASinstrument/ns:SAScollimation',
+                          namespaces={'ns': CANSAS_NS})
+        for item in nodes:
+            collim = Collimation()
+            if item.get('name') is not None:
+                collim.name = item.get('name')
+            self._store_float('ns:length', item, 'length', collim)
+            # Look for apertures
+            apert_list = item.xpath('ns:aperture',
+                                    namespaces={'ns': CANSAS_NS})
+            for apert in apert_list:
+                aperture = Aperture()
+                # Get the name and type of the aperture
+                aperture.name = apert.get('name')
+                aperture.type = apert.get('type')
+                self._store_float('ns:distance', apert, 'distance', aperture)
+                entry = get_content('ns:size', apert)
+                if entry is not None:
+                    aperture.size_name = entry.get('name')
+                self._store_float('ns:size/ns:x', apert, 'size.x', aperture)
+                self._store_float('ns:size/ns:y', apert, 'size.y', aperture)
+                self._store_float('ns:size/ns:z', apert, 'size.z', aperture)
+                collim.aperture.append(aperture)
+            data_info.collimation.append(collim)
+        # Detector info ######################
+        nodes = dom.xpath('ns:SASinstrument/ns:SASdetector',
+                          namespaces={'ns': CANSAS_NS})
+        for item in nodes:
+            detector = Detector()
+            self._store_content('ns:name', item, 'name', detector)
+            self._store_float('ns:SDD', item, 'distance', detector)
+            # Detector offset (as a vector)
+            self._store_float('ns:offset/ns:x', item, 'offset.x', detector)
+            self._store_float('ns:offset/ns:y', item, 'offset.y', detector)
+            self._store_float('ns:offset/ns:z', item, 'offset.z', detector)
+            # Detector orientation (as a vector)
+            self._store_float('ns:orientation/ns:roll', item,
+                              'orientation.x', detector)
+            self._store_float('ns:orientation/ns:pitch', item,
+                              'orientation.y', detector)
+            self._store_float('ns:orientation/ns:yaw', item,
+                              'orientation.z', detector)
+            # Beam center (as a vector)
+            self._store_float('ns:beam_center/ns:x', item,
+                              'beam_center.x', detector)
+            self._store_float('ns:beam_center/ns:y', item,
+                              'beam_center.y', detector)
+            self._store_float('ns:beam_center/ns:z', item,
+                              'beam_center.z', detector)
+            # Pixel size (as a vector)
+            self._store_float('ns:pixel_size/ns:x', item,
+                              'pixel_size.x', detector)
+            self._store_float('ns:pixel_size/ns:y', item,
+                              'pixel_size.y', detector)
+            self._store_float('ns:pixel_size/ns:z', item,
+                              'pixel_size.z', detector)
+            self._store_float('ns:slit_length', item, 'slit_length', detector)
+            data_info.detector.append(detector)
+        # Processes info ######################
+        nodes = dom.xpath('ns:SASprocess', namespaces={'ns': CANSAS_NS})
+        for item in nodes:
+            process = Process()
+            self._store_content('ns:name', item, 'name', process)
+            self._store_content('ns:date', item, 'date', process)
+            self._store_content('ns:description', item, 'description', process)
+            term_list = item.xpath('ns:term', namespaces={'ns': CANSAS_NS})
+            for term in term_list:
+                try:
+                    term_attr = {}
+                    for attr in term.keys():
+                        term_attr[attr] = term.get(attr).strip()
+                    if term.text is not None:
+                        term_attr['value'] = term.text.strip()
+                        process.term.append(term_attr)
+                except:
+                    err_mess = "cansas_reader.read: error processing "
+                    err_mess += "entry notes\n  %s" % sys.exc_value
+                    self.errors.append(err_mess)
+                    logging.error(err_mess)
+            note_list = item.xpath('ns:SASprocessnote',
+                                   namespaces={'ns': CANSAS_NS})
+            for note in note_list:
+                if note.text is not None:
+                    process.notes.append(note.text.strip())
+            data_info.process.append(process)
+        # Data info ######################
+        nodes = dom.xpath('ns:SASdata', namespaces={'ns': CANSAS_NS})
+        if len(nodes) > 1:
+            raise RuntimeError, "CanSAS reader is not compatible with" + \
+                                " multiple SASdata entries"
+        for entry in nodes:
+            for item in LIST_OF_DATA_2D_ATTR:
+                # get node
+                node = get_content('ns:%s' % item[0], entry)
+                setattr(data_info, item[1], parse_entry_helper(node, item))
+            for item in LIST_OF_DATA_2D_VALUES:
+                field = get_content('ns:%s' % item[0], entry)
+                value_list = []
+                if field is not None:
+                    value_list = \
+                        [parse_entry_helper(node, item) for node in field]
+                if len(value_list) < 2:
+                    setattr(data_info, item[0], None)
+                else:
+                    setattr(data_info, item[0], numpy.array(value_list))
+        return data_info
+        return_value, _ = self._parse_entry(dom)
+        return return_value, _
     def _read_cansas(self, path):
 …
                         name = original_fname
                     state.data.group_id = name
+                    state.version = fitstate.version
                     # store state in fitting
                     self.call_back(state=state,
 …
             state.data.run_name[0] = state.data.name
+        if issubclass(state.data.__class__,
+                      sas.sascalc.dataloader.data_info.Data1D):
+            data = state.data
+            doc, sasentry = self._to_xml_doc(data)
+        else:
+            data = state.data
+            doc, sasentry = self._data2d_to_xml_doc(data)
+        data = state.data
+        doc, sasentry = self._to_xml_doc(data)
         if state is not None:

src/sas/sasgui/perspectives/invariant/invariant_state.py

-                      rcb93b40
+                      rdb5294e
                     for item in DEFAULT_STATE:
                         input_field = get_content('ns:%s' % item, entry)
+                        val = str(input_field.text.strip())
+                        if input_field.text is not None:
+                            val = str(input_field.text.strip())
+                        else:
+                            val = ''
                         if input_field is not None:
                             temp_state[item] = val
 …
                 for item in DEFAULT_STATE:
                     input_field = get_content('ns:%s' % item, entry)
+                    val = str(input_field.text.strip())
+                    if input_field.text is not None:
+                        val = str(input_field.text.strip())
+                    else:
+                        val = ''
                     if input_field is not None:
                         self.set_saved_state(name=item, value=val)

src/sas/sasgui/perspectives/corfunc/corfunc.py

-                      r96d293da
+                      r1dc8ec9
         self._always_active = True
         self.state_reader = Reader(self.set_state)
         self._extensions = '.cor'
+        self._extensions = '.crf'
     def get_panels(self, parent):
 …
         l = Loader()
         l.associate_file_reader('.cor', self.state_reader)
+        l.associate_file_reader('.crf', self.state_reader)
         return [self.corfunc_panel]
 …
             return []
         data = plotpanel.plots[graph.selected_plottable]
         if data.id == IQ_DATA_LABEL or data.id == IQ_EXTRAPOLATED_DATA_LABEL or data.id == TRANSFORM_LABEL:
+        if data.id == IQ_DATA_LABEL or data.id == IQ_EXTRAPOLATED_DATA_LABEL or data.id == TRANSFORM_LABEL1 or data.id == TRANSFORM_LABEL3:
             return []
         item = plotpanel.plots[graph.selected_plottable]
 …
     def set_state(self, state=None, datainfo=None):
         """
         Callback for CorfuncState reader. Called when a .cor file is loaded
+        Callback for CorfuncState reader. Called when a .crf file is loaded
         """
         if isinstance(datainfo, list):
 …
                 # Show the extrapolation as a curve instead of points
                 new_plot.symbol = GUIFRAME_ID.CURVE_SYMBOL_NUM
         elif label == TRANSFORM_LABEL:
+        elif label == TRANSFORM_LABEL1 or label == TRANSFORM_LABEL3:
             new_plot.xaxis("{x}", 'A')
             new_plot.yaxis("{\\Gamma}", '')

src/sas/sasgui/perspectives/corfunc/corfunc_panel.py

-                      rd45d590
+                      r1dc8ec9
         plot_x = transform.x[np.where(transform.x <= 200)]
         plot_y = transform.y[np.where(transform.x <= 200)]
         self._manager.show_data(Data1D(plot_x, plot_y), TRANSFORM_LABEL)
+        self._manager.show_data(Data1D(plot_x, plot_y), TRANSFORM_LABEL1)
         # Only enable extract params button if a fourier trans. has been done
         if self.transform_type == 'fourier':
 …
         dlg = wx.FileDialog(self, "Choose a file",
                             default_save_location, \
                             self.window_caption, "*.cor", wx.SAVE)
+                            self.window_caption, "*.crf", wx.SAVE)
         if dlg.ShowModal() == wx.ID_OK:
             path = dlg.GetPath()
 …
         dlg.Destroy()
         # MAC always needs the extension for saving
         extens = ".cor"
+        extens = ".crf"
         # Make sure the ext included in the file name
         f_name = os.path.splitext(path)[0] + extens

src/sas/sasgui/perspectives/corfunc/corfunc_state.py

-                      rd45d590
+                      rae9b8bf
             self.background = value
     def toXML(self, filename='corfunc_state.cor', doc=None, entry_node=None):
+    def toXML(self, filename='corfunc_state.crf', doc=None, entry_node=None):
         """
         Writes the state of the CorfuncPanel panel to file, as XML.
 …
     type_name = "Corfunc"
     type = ["Corfunc file (*.cor)|*.cor",
+    type = ["Corfunc file (*.crf)|*.crf",
             "SASView file (*.svs)|*.svs"]
     ext = ['.cor', '.COR', '.svs', '.SVS']
+    ext = ['.crf', '.CRF', '.svs', '.SVS']
     def __init__(self, callback):

src/sas/sasgui/perspectives/corfunc/plot_labels.py

rff11b21	r1dc8ec9
4	4
5	5	GROUP_ID_TRANSFORM = r"$\Gamma(x)$"
6		TRANSFORM_LABEL = r"$\Gamma(x)$"
	6	TRANSFORM_LABEL1 = r"$\Gamma1(x)$"
	7	TRANSFORM_LABEL3 = r"$\Gamma3(x)$"

src/sas/sasgui/perspectives/fitting/fitting.py

-                      r06a4306
+                      r73cbeec
 from sas.sasgui.guiframe.gui_manager import MDIFrame
 from sas.sasgui.guiframe.documentation_window import DocumentationWindow
+from sas.sasgui.perspectives.fitting.gpu_options import GpuOptions
 from . import models
 …
         self.bumps_options_menu = self.menu1.FindItemById(self.id_bumps_options)
         self.bumps_options_menu.Enable(True)
+        self.id_gpu_options_panel = wx.NewId()
+        self.menu1.Append(self.id_gpu_options_panel, "OpenCL Options", "Choose OpenCL driver or turn it off")
+        wx.EVT_MENU(owner, self.id_gpu_options_panel, self.on_gpu_options)
         self.id_result_panel = wx.NewId()
 …
         self.result_frame.Show()
         self.result_frame.Raise()
+    def on_gpu_options(self, event=None):
+        """
+        Make the Fit Results panel visible.
+        """
+        dialog = GpuOptions(None, wx.ID_ANY, "")
+        dialog.Show()
     def stop_fit(self, uid):

src/sas/sasgui/perspectives/fitting/media/plugin.rst

-                      rca1eaeb
+                      rca6cbc1c
     cube(x):
         $x^3$
     sinc(x):
+    sas_sinx_x(x):
         $\sin(x)/x$, with limit $\sin(0)/0 = 1$.
     powr(x, y):
 …
         (`link to Bessel function's code <https://github.com/SasView/sasmodels/tree/master/sasmodels/models/lib/sas_JN.c>`_)
     Si(x):
+    sas_Si(x):
         Sine integral $\text{Si}(x) = \int_0^x \tfrac{\sin t}{t}\,dt$.
 …
         (`link to code <https://github.com/SasView/sasmodels/tree/master/sasmodels/models/lib/Si.c>`_)
     sph_j1c(x):
+    sas_3j1x_x(x):
         Spherical Bessel form
         $\text{sph_j1c}(x) = 3 j_1(x)/x = 3 (\sin(x) - x \cos(x))/x^3$,
 …
         This function uses a Taylor series for small $x$ for numerical accuracy.
         :code:`source = ["lib/sph_j1c.c", ...]`
         (`link to code <https://github.com/SasView/sasmodels/tree/master/sasmodels/models/lib/sph_j1c.c>`_)
     sas_J1c(x):
+        :code:`source = ["lib/sas_3j1x_x.c", ...]`
+        (`link to code <https://github.com/SasView/sasmodels/tree/master/sasmodels/models/lib/sas_3j1x_x.c>`_)
+    sas_2J1x_x(x):
         Bessel form $\text{sas_J1c}(x) = 2 J_1(x)/x$, with a limiting value
         of 1 at $x=0$, where $J_1(x)$ is the Bessel function of first kind

src/sas/sasgui/perspectives/fitting/media/sm_help.rst

-                      r7805458
+                      r27aabc1
 ==================
+Sometimes it will be necessary to correct reduced experimental data for the
+physical effects of the instrumental geometry in use. This process is called
+*desmearing*. However, calculated/simulated data - which by definition will be
+perfect/exact - can be *smeared* to make it more representative of what might
+actually be measured experimentally.
+SasView provides the following three smearing algorithms:
+Sometimes the instrumental geometry used to acquire the experimental data has
+an impact on the clarity of features in the reduced scattering curve. For
+example, peaks or fringes might be slightly broadened. This is known as
+*Q resolution smearing*. To compensate for this effect one can either try and
+remove the resolution contribution - a process called *desmearing* - or add the
+resolution contribution into a model calculation/simulation (which by definition
+will be exact) to make it more representative of what has been measured
+experimentally - a process called *smearing*. SasView will do the latter.
+Both smearing and desmearing rely on functions to describe the resolution
+effect. SasView provides three smearing algorithms:
 *  *Slit Smearing*
 *  *Pinhole Smearing*
 *  *2D Smearing*
+SasView also has an option to use Q resolution data (estimated at the time of
+data reduction) supplied in a reduced data file: the *Use dQ data* radio button.
+.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
+dQ Smearing
+-----------
+If this option is checked, SasView will assume that the supplied dQ values
+represent the standard deviations of Gaussian functions.
 .. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ

src/sas/sasgui/perspectives/pr/media/pr_help.rst

-                      r0391dae
+                      r1221196
 -----------
 This tool calculates a real-space distance distribution function, *P(r)*, using
 the inversion approach (Moore, 1908).
+This tool calculates a real-space distance distribution function, *P(r)*, using
+the inversion approach (Moore, 1980).
 *P(r)* is set to be equal to an expansion of base functions of the type
 …
   \chi^2=\frac{\sum_i (I_{meas}(Q_i)-I_{th}(Q_i))^2}{error^2}+Reg\_term
 where $I_{meas}(Q_i)$ is the measured scattering intensity and $I_{th}(Q_i)$ is
 the prediction from the Fourier transform of the *P(r)* expansion.
+the prediction from the Fourier transform of the *P(r)* expansion.
 The $Reg\_term$ term is a regularization term set to the second derivative
+The $Reg\_term$ term is a regularization term set to the second derivative
 $d^2P(r)/d^2r$ integrated over $r$. It is used to produce a smooth *P(r)* output.
 …
 *  *Number of terms*: the number of base functions in the P(r) expansion.
 *  *Regularization constant*: a multiplicative constant to set the size of
    the regularization term.

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Changeset 2510b9b in sasview for src/sas/sasgui/perspectives

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