source: sasview/src/sas/sascalc/file_converter/cansas_writer.py @ feec1cb

magnetic_scattrelease-4.2.2ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249unittest-saveload
Last change on this file since feec1cb was 574adc7, checked in by Paul Kienzle <pkienzle@…>, 7 years ago

convert sascalc to python 2/3 syntax

  • Property mode set to 100644
File size: 4.4 KB
Line 
1from sas.sascalc.dataloader.readers.cansas_reader import Reader as CansasReader
2from sas.sascalc.dataloader.data_info import Data1D
3
4import inspect
5
6class CansasWriter(CansasReader):
7
8    def write(self, filename, frame_data, sasentry_attrs=None):
9        """
10        Write the content of a Data1D as a CanSAS XML file
11
12        :param filename: name of the file to write
13        :param datainfo: Data1D object
14        """
15        # Create XML document
16        doc, _ = self._to_xml_doc(frame_data, sasentry_attrs)
17        # Write the file
18        file_ref = open(filename, 'w')
19        if self.encoding is None:
20            self.encoding = "UTF-8"
21        doc.write(file_ref, encoding=self.encoding,
22                  pretty_print=True, xml_declaration=True)
23        file_ref.close()
24
25
26    def _to_xml_doc(self, frame_data, sasentry_attrs=None):
27        """
28        Create an XML document to contain the content of an array of Data1Ds
29
30        :param frame_data: An array of Data1D objects
31        """
32        valid_class = all([issubclass(data.__class__, Data1D) for data in frame_data])
33        if not valid_class:
34            raise RuntimeError("The cansas writer expects an array of "
35                "Data1D instances")
36
37        # Get PIs and create root element
38        pi_string = self._get_pi_string()
39        # Define namespaces and create SASroot object
40        main_node = self._create_main_node()
41        # Create ElementTree, append SASroot and apply processing instructions
42        base_string = pi_string + self.to_string(main_node)
43        base_element = self.create_element_from_string(base_string)
44        doc = self.create_tree(base_element)
45        # Create SASentry Element
46        entry_node = self.create_element("SASentry", sasentry_attrs)
47        root = doc.getroot()
48        root.append(entry_node)
49
50        # Use the first element in the array for writing metadata
51        datainfo = frame_data[0]
52        # Add Title to SASentry
53        self.write_node(entry_node, "Title", datainfo.title)
54        # Add Run to SASentry
55        self._write_run_names(datainfo, entry_node)
56        # Add Data info to SASEntry
57        for data_info in frame_data:
58            self._write_data(data_info, entry_node)
59        # Transmission Spectrum Info
60        self._write_trans_spectrum(datainfo, entry_node)
61        # Sample info
62        self._write_sample_info(datainfo, entry_node)
63        # Instrument info
64        instr = self._write_instrument(datainfo, entry_node)
65        #   Source
66        self._write_source(datainfo, instr)
67        #   Collimation
68        self._write_collimation(datainfo, instr)
69        #   Detectors
70        self._write_detectors(datainfo, instr)
71        # Processes info
72        self._write_process_notes(datainfo, entry_node)
73        # Note info
74        self._write_notes(datainfo, entry_node)
75        # Return the document, and the SASentry node associated with
76        #      the data we just wrote
77
78        return doc, entry_node
79
80    def _write_data(self, datainfo, entry_node):
81        """
82        Writes the I and Q data to the XML file
83
84        :param datainfo: The Data1D object the information is coming from
85        :param entry_node: lxml node ElementTree object to be appended to
86        """
87        node = self.create_element("SASdata")
88        self.append(node, entry_node)
89
90        for i in range(len(datainfo.x)):
91            point = self.create_element("Idata")
92            node.append(point)
93            self.write_node(point, "Q", datainfo.x[i],
94                            {'unit': datainfo.x_unit})
95            if len(datainfo.y) >= i:
96                self.write_node(point, "I", datainfo.y[i],
97                                {'unit': datainfo.y_unit})
98            if datainfo.dy is not None and len(datainfo.dy) > i:
99                self.write_node(point, "Idev", datainfo.dy[i],
100                                {'unit': datainfo.y_unit})
101            if datainfo.dx is not None and len(datainfo.dx) > i:
102                self.write_node(point, "Qdev", datainfo.dx[i],
103                                {'unit': datainfo.x_unit})
104            if datainfo.dxw is not None and len(datainfo.dxw) > i:
105                self.write_node(point, "dQw", datainfo.dxw[i],
106                                {'unit': datainfo.x_unit})
107            if datainfo.dxl is not None and len(datainfo.dxl) > i:
108                self.write_node(point, "dQl", datainfo.dxl[i],
109                                {'unit': datainfo.x_unit})
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