source: sasview/src/sas/sascalc/file_converter/otoko_loader.py @ 060413c

ESS_GUIESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalc
Last change on this file since 060413c was 0b1a677, checked in by lewis, 8 years ago

Only perform writing on separate thread

Also move reader/writer classes to sascalc

  • Property mode set to 100644
File size: 6.3 KB
Line 
1"""
2Here we handle loading of "OTOKO" data (for more info about this format see
3the comment in load_otoko_data).  Given the paths of header and data files, we
4aim to load the data into numpy arrays for use later.
5"""
6
7import itertools
8import os
9import struct
10import numpy as np
11
12class CStyleStruct:
13    """A nice and easy way to get "C-style struct" functionality."""
14    def __init__(self, **kwds):
15        self.__dict__.update(kwds)
16
17class OTOKOParsingError(Exception):
18    pass
19
20class OTOKOData:
21    def __init__(self, q_axis, data_axis):
22        self.q_axis = q_axis
23        self.data_axis = data_axis
24
25class OTOKOLoader(object):
26
27    def __init__(self, qaxis_path, data_path):
28        self.qaxis_path = qaxis_path
29        self.data_path = data_path
30
31    def load_otoko_data(self):
32        """
33        Loads "OTOKO" data, which is a format that stores each axis separately.
34        An axis is represented by a "header" file, which in turn will give details
35        of one or more binary files where the actual data is stored.
36
37        Given the paths of two header files, this function will load each axis in
38        turn.  If loading is successfull then an instance of the OTOKOData class
39        will be returned, else an exception will be raised.
40
41        For more information on the OTOKO file format, please see:
42        http://www.diamond.ac.uk/Home/Beamlines/small-angle/SAXS-Software/CCP13/
43        XOTOKO.html
44        """
45        q_axis    = self._load_otoko_axis(self.qaxis_path)
46        data_axis = self._load_otoko_axis(self.data_path)
47
48        return OTOKOData(q_axis, data_axis)
49
50    def _load_otoko_axis(self, header_path):
51        """
52        Loads an "OTOKO" axis, given the header file path.  Essentially, the
53        header file contains information about the data in the form of integer
54        "indicators", as well as the names of each of the binary files which are
55        assumed to be in the same directory as the header.
56        """
57        if not os.path.exists(header_path):
58            raise OTOKOParsingError("The header file %s does not exist." % header_path)
59
60        binary_file_info_list = []
61        total_frames = 0
62        header_dir = os.path.dirname(os.path.abspath(header_path))
63
64        with open(header_path, "r") as header_file:
65            lines = header_file.readlines()
66            if len(lines) < 4:
67                raise OTOKOParsingError("Expected more lines in %s." % header_path)
68
69            info = lines[0] + lines[1]
70
71            def pairwise(iterable):
72                """
73                s -> (s0,s1), (s2,s3), (s4, s5), ...
74                From http://stackoverflow.com/a/5389547/778572
75                """
76                a = iter(iterable)
77                return itertools.izip(a, a)
78
79            for indicators, filename in pairwise(lines[2:]):
80                indicators = indicators.split()
81
82                if len(indicators) != 10:
83                    raise OTOKOParsingError(
84                        "Expected 10 integer indicators on line 3 of %s." \
85                        % header_path)
86                if not all([i.isdigit() for i in indicators]):
87                    raise OTOKOParsingError(
88                        "Expected all indicators on line 3 of %s to be integers." \
89                        % header_path)
90
91                binary_file_info = CStyleStruct(
92                    # The indicators at indices 4 to 8 are always zero since they
93                    # have been reserved for future use by the format.  Also, the
94                    # "last_file" indicator seems to be there for legacy reasons,
95                    # as it doesn't appear to be something we have to bother
96                    # enforcing correct use of; we just define the last file as
97                    # being the last file in the list.
98                    file_path  = os.path.join(header_dir, filename.strip()),
99                    n_channels = int(indicators[0]),
100                    n_frames   = int(indicators[1]),
101                    dimensions = int(indicators[2]),
102                    swap_bytes = int(indicators[3]) == 0,
103                    last_file  = int(indicators[9]) == 0 # We don't use this.
104                )
105                if binary_file_info.dimensions != 1:
106                    msg = "File {} has {} dimensions, expected 1. Is it a BSL file?"
107                    raise OTOKOParsingError(msg.format(filename.strip(),
108                        binary_file_info.dimensions))
109
110                binary_file_info_list.append(binary_file_info)
111
112                total_frames += binary_file_info.n_frames
113
114        # Check that all binary files are listed in the header as having the same
115        # number of channels, since I don't think CorFunc can handle ragged data.
116        all_n_channels = [info.n_channels for info in binary_file_info_list]
117        if not all(all_n_channels[0] == c for c in all_n_channels):
118            raise OTOKOParsingError(
119                "Expected all binary files listed in %s to have the same number of channels." % header_path)
120
121        data = np.zeros(shape=(total_frames, all_n_channels[0]))
122        frames_so_far = 0
123
124        for info in binary_file_info_list:
125            if not os.path.exists(info.file_path):
126                raise OTOKOParsingError(
127                    "The data file %s does not exist." % info.file_path)
128
129            with open(info.file_path, "rb") as binary_file:
130                # Ideally we'd like to use numpy's fromfile() to read in binary
131                # data, but we are forced to roll our own float-by-float file
132                # reader because of the rules imposed on us by the file format;
133                # namely, if the swap indicator flag has been raised then the bytes
134                # of each float occur in reverse order.
135                for frame in range(info.n_frames):
136                    for channel in range(info.n_channels):
137                        b = bytes(binary_file.read(4))
138                        if info.swap_bytes:
139                            b = b[::-1] # "Extended slice" syntax, used to reverse.
140                        value = struct.unpack('f', b)[0]
141                        data[frames_so_far + frame][channel] = value
142
143                frames_so_far += info.n_frames
144
145        return CStyleStruct(
146            header_path = header_path,
147            data = data,
148            binary_file_info_list = binary_file_info_list,
149            header_info = info
150        )
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