-                      ra235f715
+                      rfafe52a
 from sas.sascalc.dataloader.readers.xml_reader import XMLreader
 from sas.sascalc.dataloader.data_info import plottable_1D, Data1D, Sample, Source
+from sas.sascalc.dataloader.data_info import plottable_1D, Data1D, DataInfo, Sample, Source
 from sas.sascalc.dataloader.data_info import Process, Aperture, Collimation, TransmissionSpectrum, Detector
+from sas.sascalc.dataloader.loader_exceptions import FileContentsException, DataReaderException
 class Reader(XMLreader):
     """
+    A class for reading in CanSAS v2.0 data files. The existing iteration opens Mantid generated HDF5 formatted files
+    with file extension .h5/.H5. Any number of data sets may be present within the file and any dimensionality of data
+    may be used. Currently 1D and 2D SAS data sets are supported, but future implementations will include 1D and 2D
+    SESANS data. This class assumes a single data set for each sasentry.
+    :Dependencies:
+        The CanSAS HDF5 reader requires h5py v2.5.0 or later.
+    A class for reading in Anton Paar .pdh files
     """
 …
     ## Raw file contents to be processed
     raw_data = None
-    ## Data set being modified
-    current_dataset = None
     ## For recursion and saving purposes, remember parent objects
     parent_list = None
 …
     ## Flag to bypass extension check
     allow_all = False
-    ## List of files to return
-    output = None
     def reset_state(self):
         self.current_dataset = Data1D(np.empty(0), np.empty(0),
                                             np.empty(0), np.empty(0))
+        self.current_dataset = plottable_1D(np.empty(0), np.empty(0), np.empty(0), np.empty(0))
+        self.current_datainfo = DataInfo()
         self.datasets = []
         self.raw_data = None
 …
         self.lower = 5
     def read(self, filename):
+    def get_file_contents(self):
         """
             This is the general read method that all SasView data_loaders must have.
 …
         ## Reinitialize the class when loading a new data file to reset all class variables
         self.reset_state()
+        ## Check that the file exists
+        if os.path.isfile(filename):
+            basename = os.path.basename(filename)
+            _, extension = os.path.splitext(basename)
+            # If the file type is not allowed, return empty list
+            if extension in self.ext or self.allow_all:
+                ## Load the data file
+                input_f = open(filename, 'r')
+                buff = input_f.read()
+                self.raw_data = buff.splitlines()
+                self.read_data()
+        return self.output
+        buff = self.f_open.read()
+        self.raw_data = buff.splitlines()
+        self.read_data()
     def read_data(self):
+        correctly_loaded = True
+        error_message = ""
         q_unit = "1/nm"
         i_unit = "1/um^2"
+        self.current_dataset.title = self.raw_data[0]
+        self.current_dataset.meta_data["Keywords"] = self.raw_data[1]
+        line3 = self.raw_data[2].split()
+        line4 = self.raw_data[3].split()
+        line5 = self.raw_data[4].split()
+        self.data_points = int(line3[0])
+        self.lower = 5
+        self.upper = self.lower + self.data_points
+        self.source.radiation = 'x-ray'
+        normal = float(line4[3])
+        self.current_dataset.source.radiation = "x-ray"
+        self.current_dataset.source.name = "Anton Paar SAXSess Instrument"
+        self.current_dataset.source.wavelength = float(line4[4])
+        xvals = []
+        yvals = []
+        dyvals = []
+        for i in range(self.lower, self.upper):
+            index = i - self.lower
+            data = self.raw_data[i].split()
+            xvals.insert(index, normal * float(data[0]))
+            yvals.insert(index, normal * float(data[1]))
+            dyvals.insert(index, normal * float(data[2]))
+        try:
+            self.current_datainfo.title = self.raw_data[0]
+            self.current_datainfo.meta_data["Keywords"] = self.raw_data[1]
+            line3 = self.raw_data[2].split()
+            line4 = self.raw_data[3].split()
+            line5 = self.raw_data[4].split()
+            self.data_points = int(line3[0])
+            self.lower = 5
+            self.upper = self.lower + self.data_points
+            self.source.radiation = 'x-ray'
+            normal = float(line4[3])
+            self.current_datainfo.source.radiation = "x-ray"
+            self.current_datainfo.source.name = "Anton Paar SAXSess Instrument"
+            self.current_datainfo.source.wavelength = float(line4[4])
+            xvals = []
+            yvals = []
+            dyvals = []
+            for i in range(self.lower, self.upper):
+                index = i - self.lower
+                data = self.raw_data[i].split()
+                xvals.insert(index, normal * float(data[0]))
+                yvals.insert(index, normal * float(data[1]))
+                dyvals.insert(index, normal * float(data[2]))
+        except Exception as e:
+            error_message = "Couldn't load {}.\n".format(self.f_open.name)
+            error_message += e.message
+            raise FileContentsException(error_message)
         self.current_dataset.x = np.append(self.current_dataset.x, xvals)
         self.current_dataset.y = np.append(self.current_dataset.y, yvals)
         self.current_dataset.dy = np.append(self.current_dataset.dy, dyvals)
         if self.data_points != self.current_dataset.x.size:
+            self.errors.add("Not all data was loaded properly.")
+        if self.current_dataset.dx.size != self.current_dataset.x.size:
+            dxvals = np.zeros(self.current_dataset.x.size)
+            self.current_dataset.dx = dxvals
+            error_message += "Not all data points could be loaded.\n"
+            correctly_loaded = False
         if self.current_dataset.x.size != self.current_dataset.y.size:
+            self.errors.add("The x and y data sets are not the same size.")
+            error_message += "The x and y data sets are not the same size.\n"
+            correctly_loaded = False
         if self.current_dataset.y.size != self.current_dataset.dy.size:
+            self.errors.add("The y and dy datasets are not the same size.")
+        self.current_dataset.errors = self.errors
+            error_message += "The y and dy datasets are not the same size.\n"
+            correctly_loaded = False
         self.current_dataset.xaxis("Q", q_unit)
         self.current_dataset.yaxis("Intensity", i_unit)
         xml_intermediate = self.raw_data[self.upper:]
         xml = ''.join(xml_intermediate)
+        self.set_xml_string(xml)
+        dom = self.xmlroot.xpath('/fileinfo')
+        self._parse_child(dom)
+        self.output.append(self.current_dataset)
+        try:
+            self.set_xml_string(xml)
+            dom = self.xmlroot.xpath('/fileinfo')
+            self._parse_child(dom)
+        except Exception as e:
+            # Data loaded but XML metadata has an error
+            error_message += "Data points have been loaded but there was an "
+            error_message += "error reading XML metadata: " + e.message
+            correctly_loaded = False
+        self.send_to_output()
+        if not correctly_loaded:
+            raise DataReaderException(error_message)
     def _parse_child(self, dom, parent=''):
 …
                 self._parse_child(node, key)
                 if key == "SampleDetector":
                     self.current_dataset.detector.append(self.detector)
+                    self.current_datainfo.detector.append(self.detector)
                     self.detector = Detector()
             else:
                 if key == "value":
                     if parent == "Wavelength":
                         self.current_dataset.source.wavelength = value
+                        self.current_datainfo.source.wavelength = value
                     elif parent == "SampleDetector":
                         self.detector.distance = value
                     elif parent == "Temperature":
                         self.current_dataset.sample.temperature = value
+                        self.current_datainfo.sample.temperature = value
                     elif parent == "CounterSlitLength":
                         self.detector.slit_length = value
 …
                     value = value.replace("_", "")
                     if parent == "Wavelength":
                         self.current_dataset.source.wavelength_unit = value
+                        self.current_datainfo.source.wavelength_unit = value
                     elif parent == "SampleDetector":
                         self.detector.distance_unit = value
 …
                         self.current_dataset.yaxis(self.current_dataset._yaxis, value)
                     elif parent == "Temperature":
                         self.current_dataset.sample.temperature_unit = value
+                        self.current_datainfo.sample.temperature_unit = value
                     elif parent == "CounterSlitLength":
                         self.detector.slit_length_unit = value

src/sas/sascalc/dataloader/readers/xml_reader.py

-                      rbc570f4
+                      rfafe52a
         except etree.XMLSyntaxError as xml_error:
             logger.info(xml_error)
+        except Exception:
+            raise xml_error
+        except Exception as exc:
             self.xml = None
             self.xmldoc = None
             self.xmlroot = None
+            raise exc
     def set_schema(self, schema):

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SasView

Changeset fafe52a in sasview for src/sas/sascalc

Legend:

src/sas/sascalc/dataloader/readers/anton_paar_saxs_reader.py

src/sas/sascalc/dataloader/readers/xml_reader.py

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