Exemplo n.º 1
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 def parser_mca_spectra(self, nxdata, scan, primary_axis_label):
     '''parse for optional MCA spectra'''
     if '_mca_' in scan.data:  # check for it
         for mca_key, mca_data in scan.data['_mca_'].items():
             key = "__" + mca_key
             nxdata[key] = NXfield(mca_data)
             nxdata[key].units = "counts"
             ch_key = key + "_channel"
             nxdata[ch_key] = NXfield(range(1, len(mca_data[0]) + 1))
             nxdata[ch_key].units = 'channel'
             axes = (primary_axis_label, ch_key)
             nxdata[key].axes = ':'.join(axes)
Exemplo n.º 2
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 def parser_mca_spectra(self, nxdata, scan, primary_axis_label):
     '''parse for optional MCA spectra'''
     if '_mca_' in scan.data:        # check for it
         for mca_key, mca_data in scan.data['_mca_'].items():
             key = "__" + mca_key
             nxdata[key] = NXfield(mca_data)
             nxdata[key].units = "counts"
             ch_key = key + "_channel"
             nxdata[ch_key] = NXfield(range(1, len(mca_data[0])+1))
             nxdata[ch_key].units = 'channel'
             axes = (primary_axis_label, ch_key)
             nxdata[key].axes = ':'.join( axes )
Exemplo n.º 3
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    def parser_mesh(self, nxdata, scan):
        '''data parser for 2-D mesh and hklmesh'''
        # 2-D parser: http://www.certif.com/spec_help/mesh.html
        #  mesh motor1 start1 end1 intervals1 motor2 start2 end2 intervals2 time
        # 2-D parser: http://www.certif.com/spec_help/hklmesh.html
        #  hklmesh Q1 start1 end1 intervals1 Q2 start2 end2 intervals2 time
        # mesh:    nexpy/examples/33id_spec.dat  scan 22  (also has MCA, thus 3-D data)
        # hklmesh: nexpy/examples/33bm_spec.dat  scan 17  (no MCA data)
        from spec2nexus import utils
        label1, start1, end1, intervals1, label2, start2, end2, intervals2, time = scan.scanCmd.split(
        )[1:]
        if label1 not in scan.data:
            label1 = scan.L[0]  # mnemonic v. name
        if label2 not in scan.data:
            label2 = scan.L[1]  # mnemonic v. name
        axis1 = scan.data.get(label1)
        axis2 = scan.data.get(label2)
        intervals1, intervals2 = int(intervals1), int(intervals2)
        start1, end1 = float(start1), float(end1)
        start2, end2 = float(start2), float(end2)
        time = float(time)
        if len(axis1) < intervals1:  # stopped scan before second row started
            self.parser_1D_columns(nxdata, scan)  # fallback support
            # TODO: what about the MCA data in this case?
        else:
            axis1 = axis1[0:intervals1 + 1]
            axis2 = [
                axis2[row] for row in range(len(axis2))
                if row % (intervals1 + 1) == 0
            ]

            column_labels = scan.L
            column_labels.remove(label1)  # special handling
            column_labels.remove(label2)  # special handling
            if scan.scanCmd.startswith('hkl'):
                # find the reciprocal space axis held constant
                label3 = [
                    key for key in ('H', 'K', 'L')
                    if key not in (label1, label2)
                ][0]
                axis3 = scan.data.get(label3)[0]
                nxdata[label3] = NXfield(axis3)
                column_labels.remove(label3)  # already handled

            nxdata[label1] = NXfield(axis1)  # 1-D array
            nxdata[label2] = NXfield(axis2)  # 1-D array

            # build 2-D data objects (do not build label1, label2, [or label3] as 2-D objects)
            data_shape = [len(axis2), len(axis1)]
            for label in column_labels:
                axis = np.array(scan.data.get(label))
                clean_name = utils.sanitize_name(nxdata, label)
                nxdata[clean_name] = NXfield(
                    utils.reshape_data(axis, data_shape))
                nxdata[clean_name].original_name = label

            signal_axis_label = utils.sanitize_name(nxdata, scan.column_last)
            nxdata.nxsignal = nxdata[signal_axis_label]
            nxdata.nxaxes = [nxdata[label2], nxdata[label1]]

        if '_mca_' in scan.data:  # 3-D array
            # TODO: ?merge with parser_mca_spectra()?
            for mca_key, mca_data in scan.data['_mca_'].items():
                key = "__" + mca_key

                spectra_lengths = list(map(len, mca_data))
                num_channels = max(spectra_lengths)
                if num_channels != min(spectra_lengths):
                    msg = 'MCA spectra have different lengths'
                    msg += ' in scan #' + str(scan.scanNum)
                    msg += ' in file ' + str(scan.specFile)
                    raise ValueError(msg)

                data_shape += [
                    num_channels,
                ]
                mca = np.array(mca_data)
                nxdata[key] = NXfield(utils.reshape_data(mca, data_shape))
                nxdata[key].units = "counts"

                try:
                    # use MCA channel numbers as known at time of scan
                    chan1 = scan.MCA['first_saved']
                    chanN = scan.MCA['last_saved']
                    channel_range = range(chan1, chanN + 1)
                except:
                    # basic indices
                    channel_range = range(1, num_channels + 1)

                ch_key = key + "_channel"
                nxdata[ch_key] = NXfield(channel_range)
                nxdata[ch_key].units = 'channel'
                axes = (label1, label2, ch_key)
                nxdata[key].axes = ':'.join(axes)
Exemplo n.º 4
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    def toTree(self, scan_list=[]):
        '''
        convert scans from chosen SPEC file into NXroot object and structure
        
        called from nexpy.readers.readspec.ImportDialog.get_data__prjPySpec() after clicking <Ok> in dialog
        
        Each scan in the range from self.scanmin to self.scanmax (inclusive)
        will be converted to a NXentry.  Scan data will go in a NXdata where 
        the signal=1 is the last column and the corresponding axes= is the first column.
        
        :param [int] scanlist
        :raises: ValueError is Min or Max scan number are not given properly
        '''
        import spec2nexus
        from spec2nexus import utils
        # check that scan_list is valid
        if len(scan_list) == 0:
            return None

        if self.SPECfile is None:
            return None

        complete_scan_list = list(self.SPECfile.scans)
        for key in [str(s) for s in scan_list]:
            if key not in complete_scan_list:
                msg = 'scan ' + str(key) + ' was not found'
                raise ValueError(msg)

        root = NXroot()

        root.attrs['spec2nexus'] = str(spec2nexus.__version__)
        header0 = self.SPECfile.headers[0]
        root.attrs['SPEC_file'] = self.SPECfile.fileName
        root.attrs['SPEC_epoch'] = header0.epoch
        root.attrs['SPEC_date'] = utils.iso8601(header0.date)
        root.attrs['SPEC_comments'] = '\n'.join(header0.comments)
        try:
            c = header0.comments[0]
            user = c[c.find('User = '******'=')[1].strip()
            root.attrs['SPEC_user'] = user
        except:
            pass
        root.attrs['SPEC_num_headers'] = len(self.SPECfile.headers)

        self.progress_bar.setVisible(True)
        self.progress_bar.setRange(scan_list[0], scan_list[-1])
        for key in [str(s) for s in scan_list]:
            scan = self.SPECfile.getScan(key)
            scan.interpret()
            entry = NXentry()
            entry.title = str(scan)
            entry.date = utils.iso8601(scan.date)
            entry.command = scan.scanCmd
            entry.scan_number = NXfield(scan.scanNum)
            entry.comments = '\n'.join(scan.comments)
            entry.data = self.scan_NXdata(scan)  # store the scan data
            entry.positioners = self.metadata_NXlog(
                scan.positioner, 'SPEC positioners (#P & #O lines)')
            if hasattr(scan, 'metadata') and len(scan.metadata) > 0:
                entry.metadata = self.metadata_NXlog(
                    scan.metadata,
                    'SPEC metadata (UNICAT-style #H & #V lines)')

            if len(scan.G) > 0:
                entry.G = NXlog()
                desc = "SPEC geometry arrays, meanings defined by SPEC diffractometer support"
                # e.g.: SPECD/four.mac
                # http://certif.com/spec_manual/fourc_4_9.html
                entry.G.attrs['description'] = desc
                for item, value in scan.G.items():
                    entry.G[item] = NXfield(list(map(float, value.split())))
            if scan.T != '':
                entry['counting_basis'] = NXfield(
                    'SPEC scan with constant counting time')
                entry['T'] = NXfield(float(scan.T))
                entry['T'].units = 'seconds'
                entry[
                    'T'].description = 'SPEC scan with constant counting time'
            elif scan.M != '':
                entry['counting_basis'] = NXfield(
                    'SPEC scan with constant monitor count')
                entry['M'] = NXfield(float(scan.M))
                entry['M'].units = 'counts'
                entry[
                    'M'].description = 'SPEC scan with constant monitor count'
            if scan.Q != '':
                entry['Q'] = NXfield(list(map(float, scan.Q)))
                entry['Q'].description = 'hkl at start of scan'

            root['scan_' + str(key)] = entry

            self.progress_bar.setValue(int(key))
            self.update_progress()

        return root
Exemplo n.º 5
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    def parser_mesh(self, nxdata, scan):
        '''data parser for 2-D mesh and hklmesh'''
        # 2-D parser: http://www.certif.com/spec_help/mesh.html
        #  mesh motor1 start1 end1 intervals1 motor2 start2 end2 intervals2 time
        # 2-D parser: http://www.certif.com/spec_help/hklmesh.html
        #  hklmesh Q1 start1 end1 intervals1 Q2 start2 end2 intervals2 time
        # mesh:    nexpy/examples/33id_spec.dat  scan 22  (also has MCA, thus 3-D data)
        # hklmesh: nexpy/examples/33bm_spec.dat  scan 17  (no MCA data)
        from spec2nexus import utils
        label1, start1, end1, intervals1, label2, start2, end2, intervals2, time = scan.scanCmd.split()[1:]
        if label1 not in scan.data:
            label1 = scan.L[0]      # mnemonic v. name
        if label2 not in scan.data:
            label2 = scan.L[1]      # mnemonic v. name
        axis1 = scan.data.get(label1)
        axis2 = scan.data.get(label2)
        intervals1, intervals2 = int(intervals1), int(intervals2)
        start1, end1 = float(start1), float(end1)
        start2, end2 = float(start2), float(end2)
        time = float(time)
        if len(axis1) < intervals1:     # stopped scan before second row started
            self.parser_1D_columns(nxdata, scan)        # fallback support
            # TODO: what about the MCA data in this case?
        else:
            axis1 = axis1[0:intervals1+1]
            axis2 = [axis2[row] for row in range(len(axis2)) if row % (intervals1+1) == 0]

            column_labels = scan.L
            column_labels.remove(label1)    # special handling
            column_labels.remove(label2)    # special handling
            if scan.scanCmd.startswith('hkl'):
                # find the reciprocal space axis held constant
                label3 = [key for key in ('H', 'K', 'L') if key not in (label1, label2)][0]
                axis3 = scan.data.get(label3)[0]
                nxdata[label3] = NXfield(axis3)
                column_labels.remove(label3)    # already handled

            nxdata[label1] = NXfield(axis1)    # 1-D array
            nxdata[label2] = NXfield(axis2)    # 1-D array

            # build 2-D data objects (do not build label1, label2, [or label3] as 2-D objects)
            data_shape = [len(axis2), len(axis1)]
            for label in column_labels:
                axis = np.array( scan.data.get(label) )
                clean_name = utils.sanitize_name(nxdata, label)
                nxdata[clean_name] = NXfield(utils.reshape_data(axis, data_shape))
                nxdata[clean_name].original_name = label

            signal_axis_label = utils.sanitize_name(nxdata, scan.column_last)
            nxdata.nxsignal = nxdata[signal_axis_label]
            nxdata.nxaxes = [nxdata[label2], nxdata[label1]]

        if '_mca_' in scan.data:    # 3-D array
            # TODO: ?merge with parser_mca_spectra()?
            for mca_key, mca_data in scan.data['_mca_'].items():
                key = "__" + mca_key

                spectra_lengths = list(map(len, mca_data))
                num_channels = max(spectra_lengths)
                if num_channels != min(spectra_lengths):
                    msg = 'MCA spectra have different lengths'
                    msg += ' in scan #' + str(scan.scanNum)
                    msg += ' in file ' + str(scan.specFile)
                    raise ValueError(msg)

                data_shape += [num_channels, ]
                mca = np.array(mca_data)
                nxdata[key] = NXfield(utils.reshape_data(mca, data_shape))
                nxdata[key].units = "counts"

                try:
                    # use MCA channel numbers as known at time of scan
                    chan1 = scan.MCA['first_saved']
                    chanN = scan.MCA['last_saved']
                    channel_range = range(chan1, chanN+1)
                except:
                    # basic indices
                    channel_range = range(1, num_channels+1)

                ch_key = key + "_channel"
                nxdata[ch_key] = NXfield(channel_range)
                nxdata[ch_key].units = 'channel'
                axes = (label1, label2, ch_key)
                nxdata[key].axes = ':'.join( axes )
Exemplo n.º 6
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    def toTree(self, scan_list=[]):
        '''
        convert scans from chosen SPEC file into NXroot object and structure
        
        called from nexpy.readers.readspec.ImportDialog.get_data__prjPySpec() after clicking <Ok> in dialog
        
        Each scan in the range from self.scanmin to self.scanmax (inclusive)
        will be converted to a NXentry.  Scan data will go in a NXdata where 
        the signal=1 is the last column and the corresponding axes= is the first column.
        
        :param [int] scanlist
        :raises: ValueError is Min or Max scan number are not given properly
        '''
        import spec2nexus
        from spec2nexus import utils
        # check that scan_list is valid
        if len(scan_list) == 0:
            return None
        
        if self.SPECfile is None:
            return None

        complete_scan_list = list(self.SPECfile.scans)
        for key in [str(s) for s in scan_list]:
            if key not in complete_scan_list:
                msg = 'scan ' + str(key) + ' was not found'
                raise ValueError(msg)

        root = NXroot()

        root.attrs['spec2nexus'] = str(spec2nexus.__version__)
        header0 = self.SPECfile.headers[0]
        root.attrs['SPEC_file'] = self.SPECfile.fileName
        root.attrs['SPEC_epoch'] = header0.epoch
        root.attrs['SPEC_date'] = utils.iso8601(header0.date)
        root.attrs['SPEC_comments'] = '\n'.join(header0.comments)
        try:
            c = header0.comments[0]
            user = c[c.find('User = '******'=')[1].strip()
            root.attrs['SPEC_user'] = user
        except:
            pass
        root.attrs['SPEC_num_headers'] = len(self.SPECfile.headers)

        self.progress_bar.setVisible(True)
        self.progress_bar.setRange(scan_list[0], scan_list[-1])
        for key in [str(s) for s in scan_list]:
            scan = self.SPECfile.getScan(key)
            scan.interpret()
            entry = NXentry()
            entry.title = str(scan)
            entry.date = utils.iso8601(scan.date)  
            entry.command = scan.scanCmd 
            entry.scan_number = NXfield(scan.scanNum)
            entry.comments = '\n'.join(scan.comments)
            entry.data = self.scan_NXdata(scan)            # store the scan data
            entry.positioners = self.metadata_NXlog(scan.positioner, 
                                                    'SPEC positioners (#P & #O lines)')
            if hasattr(scan, 'metadata') and len(scan.metadata) > 0:
                entry.metadata = self.metadata_NXlog(scan.metadata, 
                                                     'SPEC metadata (UNICAT-style #H & #V lines)')

            if len(scan.G) > 0:
                entry.G = NXlog()
                desc = "SPEC geometry arrays, meanings defined by SPEC diffractometer support"
                # e.g.: SPECD/four.mac
                # http://certif.com/spec_manual/fourc_4_9.html
                entry.G.attrs['description'] = desc
                for item, value in scan.G.items():
                    entry.G[item] = NXfield(list(map(float, value.split())))
            if scan.T != '':
                entry['counting_basis'] = NXfield('SPEC scan with constant counting time')
                entry['T'] = NXfield(float(scan.T))
                entry['T'].units = 'seconds'
                entry['T'].description = 'SPEC scan with constant counting time'
            elif scan.M != '':
                entry['counting_basis'] = NXfield('SPEC scan with constant monitor count')
                entry['M'] = NXfield(float(scan.M))
                entry['M'].units = 'counts'
                entry['M'].description = 'SPEC scan with constant monitor count'
            if scan.Q != '':
                entry['Q'] = NXfield(list(map(float,scan.Q)))
                entry['Q'].description = 'hkl at start of scan'

            root['scan_' + str(key)] = entry

            self.progress_bar.setValue(int(key))
            self.update_progress()

        return root