sas.sascalc.dataloader package

Subpackages

sas.sascalc.dataloader.readers package

Submodules

sas.sascalc.dataloader.data_info module

Module that contains classes to hold information read from reduced data files.

A good description of the data members can be found in the CanSAS 1D XML data format:

http://www.smallangles.net/wgwiki/index.php/cansas1d_documentation

class sas.sascalc.dataloader.data_info.Aperture[source]

Bases: object

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', 'name': None, 'type': None, 'size_name': None, 'size': None, 'size_unit': 'mm', 'distance': None, 'distance_unit': 'mm', '__init__': <function Aperture.__init__>, '__dict__': <attribute '__dict__' of 'Aperture' objects>, '__weakref__': <attribute '__weakref__' of 'Aperture' objects>, '__doc__': None, '__annotations__': {}})

__doc__ = None

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__weakref__: list of weak references to the object (if defined)

distance = None

distance_unit = 'mm'

name = None

size = None

size_name = None

size_unit = 'mm'

type = None

class sas.sascalc.dataloader.data_info.Collimation[source]

Bases: object

Class to hold collimation information

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class to hold collimation information\n ', 'name': None, 'length': None, 'length_unit': 'mm', 'aperture': None, '__init__': <function Collimation.__init__>, '__str__': <function Collimation.__str__>, '__dict__': <attribute '__dict__' of 'Collimation' objects>, '__weakref__': <attribute '__weakref__' of 'Collimation' objects>, '__annotations__': {}})

__doc__ = '\n Class to hold collimation information\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

aperture = None

length = None

length_unit = 'mm'

name = None

class sas.sascalc.dataloader.data_info.Data1D(x=None, y=None, dx=None, dy=None, lam=None, dlam=None, isSesans=False)[source]

Bases: plottable_1D, DataInfo

1D data class

__doc__ = '\n 1D data class\n '

__init__(x=None, y=None, dx=None, dy=None, lam=None, dlam=None, isSesans=False)[source]: Initialization

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Nice printout

_perform_operation(other, operation)[source]

_perform_union(other)[source]

_validity_check(other)[source]

Checks that the data lengths are compatible. Checks that the x vectors are compatible. Returns errors vectors equal to original errors vectors if they were present or vectors of zeros when none was found.

Parameters:: other – other data set for operation
Returns:: dy for self, dy for other [numpy arrays]
Raises:: ValueError – when lengths are not compatible

_validity_check_union(other)[source]

Checks that the data lengths are compatible. Checks that the x vectors are compatible. Returns errors vectors equal to original errors vectors if they were present or vectors of zeros when none was found.

Parameters:: other – other data set for operation
Returns:: bool
Raises:: ValueError – when data types are not compatible

clone_without_data(length=0, clone=None)[source]

Clone the current object, without copying the data (which will be filled out by a subsequent operation). The data arrays will be initialized to zero.

Parameters:

length – length of the data array to be initialized
clone – if provided, the data will be copied to clone

copy_from_datainfo(data1d)[source]: copy values of Data1D of type DataLaoder.Data_info

is_slit_smeared()[source]: Check whether the data has slit smearing information :return: True is slit smearing info is present, False otherwise

class sas.sascalc.dataloader.data_info.Data2D(data=None, err_data=None, qx_data=None, qy_data=None, q_data=None, mask=None, dqx_data=None, dqy_data=None, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None)[source]

Bases: plottable_2D, DataInfo

2D data class

I_unit = '1/cm'

Q_unit = '1/A'

__doc__ = '\n 2D data class\n '

__init__(data=None, err_data=None, qx_data=None, qy_data=None, q_data=None, mask=None, dqx_data=None, dqy_data=None, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None)[source]: Initialization

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

_perform_operation(other, operation)[source]

Perform 2D operations between data sets

Parameters:

other – other data set
operation – function defining the operation

_perform_union(other)[source]

Perform 2D operations between data sets

Parameters:

other – other data set
operation – function defining the operation

_validity_check(other)[source]

Checks that the data lengths are compatible. Checks that the x vectors are compatible. Returns errors vectors equal to original errors vectors if they were present or vectors of zeros when none was found.

Parameters:: other – other data set for operation
Returns:: dy for self, dy for other [numpy arrays]
Raises:: ValueError – when lengths are not compatible

static _validity_check_union(self, other)[source]

Checks that the data lengths are compatible. Checks that the x vectors are compatible. Returns errors vectors equal to original errors vectors if they were present or vectors of zeros when none was found.

Parameters:: other – other data set for operation
Returns:: bool
Raises:: ValueError – when data types are not compatible

clone_without_data(length=0, clone=None)[source]

Clone the current object, without copying the data (which will be filled out by a subsequent operation). The data arrays will be initialized to zero.

Parameters:

length – length of the data array to be initialized
clone – if provided, the data will be copied to clone

copy_from_datainfo(data2d)[source]: copy value of Data2D of type DataLoader.data_info

isSesans = False

class sas.sascalc.dataloader.data_info.DataInfo[source]

Bases: object

Class to hold the data read from a file. It includes four blocks of data for the instrument description, the sample description, the data itself and any other meta data.

__add__(other)[source]

Add two data sets

Parameters:: other – data set to add to the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class to hold the data read from a file.\n It includes four blocks of data for the\n instrument description, the sample description,\n the data itself and any other meta data.\n ', 'title': '', 'run': None, 'run_name': None, 'filename': '', 'notes': None, 'process': None, 'instrument': '', 'detector': None, 'sample': None, 'source': None, 'collimation': None, 'trans_spectrum': None, 'meta_data': None, 'errors': None, 'isSesans': None, '__init__': <function DataInfo.__init__>, 'append_empty_process': <function DataInfo.append_empty_process>, 'add_notes': <function DataInfo.add_notes>, '__str__': <function DataInfo.__str__>, '_perform_operation': <function DataInfo._perform_operation>, '_perform_union': <function DataInfo._perform_union>, '__add__': <function DataInfo.__add__>, '__radd__': <function DataInfo.__radd__>, '__sub__': <function DataInfo.__sub__>, '__rsub__': <function DataInfo.__rsub__>, '__mul__': <function DataInfo.__mul__>, '__rmul__': <function DataInfo.__rmul__>, '__truediv__': <function DataInfo.__truediv__>, '__div__': <function DataInfo.__truediv__>, '__rtruediv__': <function DataInfo.__rtruediv__>, '__rdiv__': <function DataInfo.__rtruediv__>, '__or__': <function DataInfo.__or__>, '__ror__': <function DataInfo.__ror__>, '__dict__': <attribute '__dict__' of 'DataInfo' objects>, '__weakref__': <attribute '__weakref__' of 'DataInfo' objects>, '__annotations__': {}})

__div__(other)

Divided a data set by another

Parameters:: other – data set that the current one is divided by
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__doc__ = '\n Class to hold the data read from a file.\n It includes four blocks of data for the\n instrument description, the sample description,\n the data itself and any other meta data.\n '

__init__()[source]: Initialization

__module__ = 'sas.sascalc.dataloader.data_info'

__mul__(other)[source]

Multiply two data sets

Parameters:: other – data set to subtract from the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__or__(other)[source]

Union a data set with another

Parameters:: other – data set to be unified
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__radd__(other)[source]

Add two data sets

Parameters:: other – data set to add to the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__rdiv__(other)

Divided a data set by another

Parameters:: other – data set that the current one is divided by
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__rmul__(other)[source]

Multiply two data sets

Parameters:: other – data set to subtract from the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__ror__(other)[source]

Union a data set with another

Parameters:: other – data set to be unified
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__rsub__(other)[source]

Subtract two data sets

Parameters:: other – data set to subtract from the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__rtruediv__(other)[source]

Divided a data set by another

Parameters:: other – data set that the current one is divided by
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__str__()[source]: Nice printout

__sub__(other)[source]

Subtract two data sets

Parameters:: other – data set to subtract from the current one
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__truediv__(other)[source]

Divided a data set by another

Parameters:: other – data set that the current one is divided by
Returns:: new data set
Raises:: ValueError – raised when two data sets are incompatible

__weakref__: list of weak references to the object (if defined)

_perform_operation(other, operation)[source]: Private method to perform operation. Not implemented for DataInfo, but should be implemented for each data class inherited from DataInfo that holds actual data (ex.: Data1D)

_perform_union(other)[source]: Private method to perform union operation. Not implemented for DataInfo, but should be implemented for each data class inherited from DataInfo that holds actual data (ex.: Data1D)

add_notes(message='')[source]: Add notes to datainfo

append_empty_process()[source]

collimation = None

detector = None

errors = None

filename = ''

instrument = ''

isSesans = None

meta_data = None

notes = None

process = None

run = None

run_name = None

sample = None

source = None

title = ''

trans_spectrum = None

class sas.sascalc.dataloader.data_info.Detector[source]

Bases: object

Class to hold detector information

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class to hold detector information\n ', 'name': None, 'distance': None, 'distance_unit': 'mm', 'offset': None, 'offset_unit': 'm', 'orientation': None, 'orientation_unit': 'degree', 'beam_center': None, 'beam_center_unit': 'mm', 'pixel_size': None, 'pixel_size_unit': 'mm', 'slit_length': None, 'slit_length_unit': 'mm', '__init__': <function Detector.__init__>, '__str__': <function Detector.__str__>, '__dict__': <attribute '__dict__' of 'Detector' objects>, '__weakref__': <attribute '__weakref__' of 'Detector' objects>, '__annotations__': {}})

__doc__ = '\n Class to hold detector information\n '

__init__()[source]: Initialize class attribute that are objects…

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

beam_center = None

beam_center_unit = 'mm'

distance = None

distance_unit = 'mm'

name = None

offset = None

offset_unit = 'm'

orientation = None

orientation_unit = 'degree'

pixel_size = None

pixel_size_unit = 'mm'

slit_length = None

slit_length_unit = 'mm'

class sas.sascalc.dataloader.data_info.Process[source]

Bases: object

Class that holds information about the processes performed on the data.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class that holds information about the processes\n performed on the data.\n ', 'name': '', 'date': '', 'description': '', 'term': None, 'notes': None, '__init__': <function Process.__init__>, 'is_empty': <function Process.is_empty>, 'single_line_desc': <function Process.single_line_desc>, '__str__': <function Process.__str__>, '__dict__': <attribute '__dict__' of 'Process' objects>, '__weakref__': <attribute '__weakref__' of 'Process' objects>, '__annotations__': {}})

__doc__ = '\n Class that holds information about the processes\n performed on the data.\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

date = ''

description = ''

is_empty()[source]: Return True if the object is empty

name = ''

notes = None

single_line_desc()[source]: Return a single line string representing the process

term = None

class sas.sascalc.dataloader.data_info.Sample[source]

Bases: object

Class to hold the sample description

ID = ''

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class to hold the sample description\n ', 'name': '', 'ID': '', 'thickness': None, 'thickness_unit': 'mm', 'transmission': None, 'temperature': None, 'temperature_unit': None, 'position': None, 'position_unit': 'mm', 'orientation': None, 'orientation_unit': 'degree', 'details': None, 'zacceptance': (0, ''), 'yacceptance': (0, ''), '__init__': <function Sample.__init__>, '__str__': <function Sample.__str__>, '__dict__': <attribute '__dict__' of 'Sample' objects>, '__weakref__': <attribute '__weakref__' of 'Sample' objects>, '__annotations__': {}})

__doc__ = '\n Class to hold the sample description\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

details = None

name = ''

orientation = None

orientation_unit = 'degree'

position = None

position_unit = 'mm'

temperature = None

temperature_unit = None

thickness = None

thickness_unit = 'mm'

transmission = None

yacceptance = (0, '')

zacceptance = (0, '')

class sas.sascalc.dataloader.data_info.Source[source]

Bases: object

Class to hold source information

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class to hold source information\n ', 'name': None, 'radiation': None, 'type': None, 'probe': None, 'beam_size_name': None, 'beam_size': None, 'beam_size_unit': 'mm', 'beam_shape': None, 'wavelength': None, 'wavelength_unit': 'A', 'wavelength_min': None, 'wavelength_min_unit': 'nm', 'wavelength_max': None, 'wavelength_max_unit': 'nm', 'wavelength_spread': None, 'wavelength_spread_unit': 'percent', '__init__': <function Source.__init__>, '__str__': <function Source.__str__>, '__dict__': <attribute '__dict__' of 'Source' objects>, '__weakref__': <attribute '__weakref__' of 'Source' objects>, '__annotations__': {}})

__doc__ = '\n Class to hold source information\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

beam_shape = None

beam_size = None

beam_size_name = None

beam_size_unit = 'mm'

name = None

probe = None

radiation = None

type = None

wavelength = None

wavelength_max = None

wavelength_max_unit = 'nm'

wavelength_min = None

wavelength_min_unit = 'nm'

wavelength_spread = None

wavelength_spread_unit = 'percent'

wavelength_unit = 'A'

class sas.sascalc.dataloader.data_info.TransmissionSpectrum[source]

Bases: object

Class that holds information about transmission spectrum for white beams and spallation sources.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Class that holds information about transmission spectrum\n for white beams and spallation sources.\n ', 'name': '', 'timestamp': '', 'wavelength': None, 'wavelength_unit': 'A', 'transmission': None, 'transmission_unit': '', 'transmission_deviation': None, 'transmission_deviation_unit': '', '__init__': <function TransmissionSpectrum.__init__>, '__str__': <function TransmissionSpectrum.__str__>, '__dict__': <attribute '__dict__' of 'TransmissionSpectrum' objects>, '__weakref__': <attribute '__weakref__' of 'TransmissionSpectrum' objects>, '__annotations__': {}})

__doc__ = '\n Class that holds information about transmission spectrum\n for white beams and spallation sources.\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

name = ''

timestamp = ''

transmission = None

transmission_deviation = None

transmission_deviation_unit = ''

transmission_unit = ''

wavelength = None

wavelength_unit = 'A'

class sas.sascalc.dataloader.data_info.Vector(x=None, y=None, z=None)[source]

Bases: object

Vector class to hold multi-dimensional objects

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Vector class to hold multi-dimensional objects\n ', 'x': None, 'y': None, 'z': None, '__init__': <function Vector.__init__>, '__str__': <function Vector.__str__>, '__dict__': <attribute '__dict__' of 'Vector' objects>, '__weakref__': <attribute '__weakref__' of 'Vector' objects>, '__annotations__': {}})

__doc__ = '\n Vector class to hold multi-dimensional objects\n '

__init__(x=None, y=None, z=None)[source]

Initialization. Components that are not set a set to None by default.

Parameters:

x – x component
y – y component
z – z component

__module__ = 'sas.sascalc.dataloader.data_info'

__str__()[source]: Return str(self).

__weakref__: list of weak references to the object (if defined)

x = None

y = None

z = None

sas.sascalc.dataloader.data_info.combine_data_info_with_plottable(data, datainfo)[source]

A function that combines the DataInfo data in self.current_datainto with a plottable_1D or 2D data object.

Parameters:

data – A plottable_1D or plottable_2D data object
datainfo – A DataInfo object to be combined with the plottable

Returns:

A fully specified Data1D or Data2D object

class sas.sascalc.dataloader.data_info.plottable_1D(x, y, dx=None, dy=None, dxl=None, dxw=None, lam=None, dlam=None)[source]

Bases: object

Data1D is a place holder for 1D plottables.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Data1D is a place holder for 1D plottables.\n ', 'x': None, 'y': None, 'dx': None, 'dy': None, 'dxl': None, 'dxw': None, 'lam': None, 'dlam': None, '_xaxis': '', '_xunit': '', '_yaxis': '', '_yunit': '', '__init__': <function plottable_1D.__init__>, 'xaxis': <function plottable_1D.xaxis>, 'yaxis': <function plottable_1D.yaxis>, '__dict__': <attribute '__dict__' of 'plottable_1D' objects>, '__weakref__': <attribute '__weakref__' of 'plottable_1D' objects>, '__annotations__': {}})

__doc__ = '\n Data1D is a place holder for 1D plottables.\n '

__init__(x, y, dx=None, dy=None, dxl=None, dxw=None, lam=None, dlam=None)[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__weakref__: list of weak references to the object (if defined)

_xaxis = ''

_xunit = ''

_yaxis = ''

_yunit = ''

dlam = None

dx = None

dxl = None

dxw = None

dy = None

lam = None

x = None

xaxis(label, unit)[source]: set the x axis label and unit

y = None

yaxis(label, unit)[source]: set the y axis label and unit

class sas.sascalc.dataloader.data_info.plottable_2D(data=None, err_data=None, qx_data=None, qy_data=None, q_data=None, mask=None, dqx_data=None, dqy_data=None, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None, x_bins=None, y_bins=None)[source]

Bases: object

Data2D is a place holder for 2D plottables.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.data_info', '__doc__': '\n Data2D is a place holder for 2D plottables.\n ', 'xmin': None, 'xmax': None, 'ymin': None, 'ymax': None, 'data': None, 'qx_data': None, 'qy_data': None, 'q_data': None, 'err_data': None, 'dqx_data': None, 'dqy_data': None, 'mask': None, 'x_bins': None, 'y_bins': None, '_xaxis': '', '_xunit': '', '_yaxis': '', '_yunit': '', '_zaxis': '', '_zunit': '', '__init__': <function plottable_2D.__init__>, 'xaxis': <function plottable_2D.xaxis>, 'yaxis': <function plottable_2D.yaxis>, 'zaxis': <function plottable_2D.zaxis>, '__dict__': <attribute '__dict__' of 'plottable_2D' objects>, '__weakref__': <attribute '__weakref__' of 'plottable_2D' objects>, '__annotations__': {}})

__doc__ = '\n Data2D is a place holder for 2D plottables.\n '

__init__(data=None, err_data=None, qx_data=None, qy_data=None, q_data=None, mask=None, dqx_data=None, dqy_data=None, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None, x_bins=None, y_bins=None)[source]

__module__ = 'sas.sascalc.dataloader.data_info'

__weakref__: list of weak references to the object (if defined)

_xaxis = ''

_xunit = ''

_yaxis = ''

_yunit = ''

_zaxis = ''

_zunit = ''

data = None

dqx_data = None

dqy_data = None

err_data = None

mask = None

q_data = None

qx_data = None

qy_data = None

x_bins = None

xaxis(label, unit)[source]: set the x axis label and unit

xmax = None

xmin = None

y_bins = None

yaxis(label, unit)[source]: set the y axis label and unit

ymax = None

ymin = None

zaxis(label, unit)[source]: set the z axis label and unit

sas.sascalc.dataloader.file_reader_base_class module

This is the base file reader class most file readers should inherit from. All generic functionality required for a file loader/reader is built into this class

class sas.sascalc.dataloader.file_reader_base_class.FileReader[source]

Bases: object

_ZERO = 1e-16

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.file_reader_base_class', 'type_name': 'ASCII', 'type': ['Text files (*.txt|*.TXT)'], 'ext': ['.txt'], 'deprecated_extensions': ['.asc'], 'allow_all': False, 'has_converter': True, '_ZERO': 1e-16, '__init__': <function FileReader.__init__>, 'read': <function FileReader.read>, 'reset_state': <function FileReader.reset_state>, 'nextline': <function FileReader.nextline>, 'nextlines': <function FileReader.nextlines>, 'readall': <function FileReader.readall>, 'handle_error_message': <function FileReader.handle_error_message>, 'send_to_output': <function FileReader.send_to_output>, 'sort_data': <function FileReader.sort_data>, '_reorder_1d_array': <staticmethod object>, '_remove_nans_in_data': <staticmethod object>, 'set_default_1d_units': <staticmethod object>, 'set_default_2d_units': <staticmethod object>, 'convert_data_units': <function FileReader.convert_data_units>, 'format_unit': <function FileReader.format_unit>, 'set_all_to_none': <function FileReader.set_all_to_none>, 'data_cleanup': <function FileReader.data_cleanup>, 'remove_empty_q_values': <function FileReader.remove_empty_q_values>, 'reset_data_list': <function FileReader.reset_data_list>, 'splitline': <staticmethod object>, 'get_file_contents': <function FileReader.get_file_contents>, '__dict__': <attribute '__dict__' of 'FileReader' objects>, '__weakref__': <attribute '__weakref__' of 'FileReader' objects>, '__doc__': None, '__annotations__': {}})

__doc__ = None

__init__()[source]

__module__ = 'sas.sascalc.dataloader.file_reader_base_class'

__weakref__: list of weak references to the object (if defined)

static _remove_nans_in_data(data)[source]: Remove data points where nan is loaded :param data: 1D or 2D data object :return: data with nan points removed

static _reorder_1d_array(array, ind)[source]: Reorders a 1D array based on the indices passed as ind :param array: Array to be reordered :param ind: Indices used to reorder array :return: reordered array

allow_all = False

convert_data_units(default_q_unit='1/A')[source]: Converts al; data to the sasview default of units of A^{-1} for Q and cm^{-1} for I. :param default_q_unit: The default Q unit used by Sasview

data_cleanup()[source]: Clean up the data sets and refresh everything :return: None

deprecated_extensions = ['.asc']

ext = ['.txt']

format_unit(unit=None)[source]: Format units a common way :param unit: :return:

abstract get_file_contents()[source]: Reader specific class to access the contents of the file All reader classes that inherit from FileReader must implement

handle_error_message(msg)[source]: Generic error handler to add an error to the current datainfo to propagate the error up the error chain. :param msg: Error message

has_converter = True

nextline()[source]: Returns the next line in the file as a string.

nextlines()[source]: Returns the next line in the file as a string.

read(filepath)[source]

Basic file reader

Parameters:: filepath – The full or relative path to a file to be loaded

readall()[source]: Returns the entire file as a string.

remove_empty_q_values()[source]: Remove any point where Q == 0

reset_data_list(no_lines=0)[source]: Reset the plottable_1D object

reset_state()[source]: Resets the class state to a base case when loading a new data file so previous data files do not appear a second time

send_to_output()[source]: Helper that automatically combines the info and set and then appends it to output

set_all_to_none()[source]: Set all mutable values to None for error handling purposes

static set_default_1d_units(data)[source]: Set the x and y axes to the default 1D units :param data: 1D data set :return:

static set_default_2d_units(data)[source]: Set the x and y axes to the default 2D units :param data: 2D data set :return:

sort_data()[source]: Sort 1D data along the X axis for consistency

static splitline(line)[source]: Splits a line into pieces based on common delimiters :param line: A single line of text :return: list of values

type = ['Text files (*.txt|*.TXT)']

type_name = 'ASCII'

sas.sascalc.dataloader.file_reader_base_class.decode(s)[source]

sas.sascalc.dataloader.loader module

File handler to support different file extensions. Uses reflectometer registry utility. The default readers are found in the ‘readers’ sub-module and registered by default at initialization time. To add a new default reader, one must register it in the register_readers method found in readers/__init__.py. A utility method (find_plugins) is available to inspect a directory (for instance, a user plug-in directory) and look for new readers/writers.

class sas.sascalc.dataloader.loader.Loader[source]

Bases: object

Utility class to use the Registry as a singleton.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.loader', '__doc__': '\n Utility class to use the Registry as a singleton.\n ', '_Loader__registry': <sas.sascalc.dataloader.loader.Registry object>, 'associate_file_type': <function Loader.associate_file_type>, 'associate_file_reader': <function Loader.associate_file_reader>, 'load': <function Loader.load>, 'save': <function Loader.save>, '_get_registry_creation_time': <function Loader._get_registry_creation_time>, 'find_plugins': <function Loader.find_plugins>, 'get_wildcards': <function Loader.get_wildcards>, '__dict__': <attribute '__dict__' of 'Loader' objects>, '__weakref__': <attribute '__weakref__' of 'Loader' objects>, '__annotations__': {}})

__doc__ = '\n Utility class to use the Registry as a singleton.\n '

__module__ = 'sas.sascalc.dataloader.loader'

__registry = <sas.sascalc.dataloader.loader.Registry object>

__weakref__: list of weak references to the object (if defined)

_get_registry_creation_time()[source]: Internal method used to test the uniqueness of the registry object

associate_file_reader(ext, loader)[source]: Append a reader object to readers :param ext: file extension [string] :param module: reader object

associate_file_type(ext, module)[source]: Look into a module to find whether it contains a Reader class. If so, append it to readers and (potentially) to the list of writers for the given extension :param ext: file extension [string] :param module: module object

find_plugins(directory)[source]: Find plugins in a given directory :param dir: directory to look into to find new readers/writers

get_wildcards()[source]: Return the list of wildcards

load(file, format=None)[source]: Load a file :param file: file name (path) :param format: specified format to use (optional) :return: DataInfo object

save(file, data, format)[source]: Save a DataInfo object to file :param file: file name (path) :param data: DataInfo object :param format: format to write the data in

class sas.sascalc.dataloader.loader.Registry[source]

Bases: ExtensionRegistry

Registry class for file format extensions. Readers and writers are supported.

__doc__ = '\n Registry class for file format extensions.\n Readers and writers are supported.\n '

__init__()[source]

__module__ = 'sas.sascalc.dataloader.loader'

_identify_plugin(module)[source]: Look into a module to find whether it contains a Reader class. If so, add it to readers and (potentially) to the list of writers. :param module: module object

associate_file_reader(ext, loader)[source]: Append a reader object to readers :param ext: file extension [string] :param module: reader object

associate_file_type(ext, module)[source]: Look into a module to find whether it contains a Reader class. If so, APPEND it to readers and (potentially) to the list of writers for the given extension :param ext: file extension [string] :param module: module object

find_plugins(dir)[source]: Find readers in a given directory. This method can be used to inspect user plug-in directories to find new readers/writers. :param dir: directory to search into :return: number of readers found

load(path, format=None, debug=False, use_defaults=True)[source]

Call the loader for the file type of path.

Parameters:

path – file path
format – explicit extension, to force the use of a particular reader
debug – when True, print the traceback for each loader that fails
use_defaults – Flag to use the default readers as a backup if the main reader fails or no reader exists

Defaults to the ascii (multi-column), cansas XML, and cansas NeXuS readers if no reader was registered for the file’s extension.

load_using_generic_loaders(path)[source]: If the expected reader cannot load the file or no known loader exists, attempt to load the file using a few defaults readers :param path: file path :return: List of Data1D and Data2D objects

lookup_writers(path)[source]

Returns:: the loader associated with the file type of path.
Raises ValueError:: if file type is not known.

save(path, data, format=None)[source]: Call the writer for the file type of path. Raises ValueError if no writer is available. Raises KeyError if format is not available. May raise a writer-defined exception if writer fails.

sas.sascalc.dataloader.loader_exceptions module

Exceptions specific to loading data.

exception sas.sascalc.dataloader.loader_exceptions.DataReaderException(e=None)[source]

Bases: Exception

Exception for files that were able to mostly load, but had minor issues along the way. Any exceptions of this type should be put into the datainfo.errors

__doc__ = '\n Exception for files that were able to mostly load, but had minor issues\n along the way.\n Any exceptions of this type should be put into the datainfo.errors\n '

__init__(e=None)[source]

__module__ = 'sas.sascalc.dataloader.loader_exceptions'

__weakref__: list of weak references to the object (if defined)

exception sas.sascalc.dataloader.loader_exceptions.DefaultReaderException(e=None)[source]

Bases: Exception

Exception for files with no associated reader. This should be thrown by default readers only to tell Loader to try the next reader.

__doc__ = '\n Exception for files with no associated reader. This should be thrown by\n default readers only to tell Loader to try the next reader.\n '

__init__(e=None)[source]

__module__ = 'sas.sascalc.dataloader.loader_exceptions'

__weakref__: list of weak references to the object (if defined)

exception sas.sascalc.dataloader.loader_exceptions.FileContentsException(e=None)[source]

Bases: Exception

Exception for files with an associated reader, but with no loadable data. This is useful for catching loader or file format issues.

__doc__ = '\n Exception for files with an associated reader, but with no loadable data.\n This is useful for catching loader or file format issues.\n '

__init__(e=None)[source]

__module__ = 'sas.sascalc.dataloader.loader_exceptions'

__weakref__: list of weak references to the object (if defined)

exception sas.sascalc.dataloader.loader_exceptions.NoKnownLoaderException(e=None)[source]

Bases: Exception

Exception for files with no associated reader based on the file extension of the loaded file. This exception should only be thrown by loader.py.

__doc__ = '\n Exception for files with no associated reader based on the file\n extension of the loaded file. This exception should only be thrown by\n loader.py.\n '

__init__(e=None)[source]

__module__ = 'sas.sascalc.dataloader.loader_exceptions'

__weakref__: list of weak references to the object (if defined)

sas.sascalc.dataloader.manipulations module

class sas.sascalc.dataloader.manipulations.Binning(min_value, max_value, n_bins, base=None)[source]

Bases: object

This class just creates a binning object either linear or log

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n This class just creates a binning object\n either linear or log\n ', '__init__': <function Binning.__init__>, 'get_bin_index': <function Binning.get_bin_index>, '__dict__': <attribute '__dict__' of 'Binning' objects>, '__weakref__': <attribute '__weakref__' of 'Binning' objects>, '__annotations__': {}})

__doc__ = '\n This class just creates a binning object\n either linear or log\n '

__init__(min_value, max_value, n_bins, base=None)[source]: if base is None: Linear binning

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

get_bin_index(value)[source]: The general formula logarithm binning is: bin = floor(N * (log(x) - log(min)) / (log(max) - log(min)))

class sas.sascalc.dataloader.manipulations.Boxavg(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

Bases: Boxsum

Perform the average of counts in a 2D region of interest.

__call__(data2D)[source]

Perform the sum in the region of interest

Parameters:: data2D – Data2D object
Returns:: average counts, error on average counts

__doc__ = '\n Perform the average of counts in a 2D region of interest.\n '

__init__(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

class sas.sascalc.dataloader.manipulations.Boxcut(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

Bases: object

Find a rectangular 2D region of interest.

__call__(data2D)[source]

Find a rectangular 2D region of interest.

Parameters:: data2D – Data2D object
Returns:: mask, 1d array (len = len(data)) with Trues where the data points are inside ROI, otherwise False

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Find a rectangular 2D region of interest.\n ', '__init__': <function Boxcut.__init__>, '__call__': <function Boxcut.__call__>, '_find': <function Boxcut._find>, '__dict__': <attribute '__dict__' of 'Boxcut' objects>, '__weakref__': <attribute '__weakref__' of 'Boxcut' objects>, '__annotations__': {}})

__doc__ = '\n Find a rectangular 2D region of interest.\n '

__init__(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

_find(data2D)[source]

Find a rectangular 2D region of interest.

Parameters:: data2D – Data2D object
Returns:: out, 1d array (length = len(data)) with Trues where the data points are inside ROI, otherwise Falses

class sas.sascalc.dataloader.manipulations.Boxsum(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

Bases: object

Perform the sum of counts in a 2D region of interest.

__call__(data2D)[source]

Perform the sum in the region of interest

Parameters:: data2D – Data2D object
Returns:: number of counts, error on number of counts, number of points summed

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Perform the sum of counts in a 2D region of interest.\n ', '__init__': <function Boxsum.__init__>, '__call__': <function Boxsum.__call__>, '_sum': <function Boxsum._sum>, '__dict__': <attribute '__dict__' of 'Boxsum' objects>, '__weakref__': <attribute '__weakref__' of 'Boxsum' objects>, '__annotations__': {}})

__doc__ = '\n Perform the sum of counts in a 2D region of interest.\n '

__init__(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

_sum(data2D)[source]

Perform the sum in the region of interest

Parameters:: data2D – Data2D object
Returns:: number of counts, error on number of counts, number of entries summed

class sas.sascalc.dataloader.manipulations.CircularAverage(r_min=0.0, r_max=0.0, bin_width=0.0005)[source]

Bases: object

Perform circular averaging on 2D data

The data returned is the distribution of counts as a function of Q

__call__(data2D, ismask=False)[source]

Perform circular averaging on the data

Parameters:: data2D – Data2D object
Returns:: Data1D object

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Perform circular averaging on 2D data\n\n The data returned is the distribution of counts\n as a function of Q\n ', '__init__': <function CircularAverage.__init__>, '__call__': <function CircularAverage.__call__>, '__dict__': <attribute '__dict__' of 'CircularAverage' objects>, '__weakref__': <attribute '__weakref__' of 'CircularAverage' objects>, '__annotations__': {}})

__doc__ = '\n Perform circular averaging on 2D data\n\n The data returned is the distribution of counts\n as a function of Q\n '

__init__(r_min=0.0, r_max=0.0, bin_width=0.0005)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

class sas.sascalc.dataloader.manipulations.Ring(r_min=0, r_max=0, center_x=0, center_y=0, nbins=36)[source]

Bases: object

Defines a ring on a 2D data set. The ring is defined by r_min, r_max, and the position of the center of the ring.

The data returned is the distribution of counts around the ring as a function of phi.

Phi_min and phi_max should be defined between 0 and 2*pi in anti-clockwise starting from the x- axis on the left-hand side

__call__(data2D)[source]

Apply the ring to the data set. Returns the angular distribution for a given q range

Parameters:: data2D – Data2D object
Returns:: Data1D object

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Defines a ring on a 2D data set.\n The ring is defined by r_min, r_max, and\n the position of the center of the ring.\n\n The data returned is the distribution of counts\n around the ring as a function of phi.\n\n Phi_min and phi_max should be defined between 0 and 2*pi\n in anti-clockwise starting from the x- axis on the left-hand side\n ', '__init__': <function Ring.__init__>, '__call__': <function Ring.__call__>, '__dict__': <attribute '__dict__' of 'Ring' objects>, '__weakref__': <attribute '__weakref__' of 'Ring' objects>, '__annotations__': {}})

__doc__ = '\n Defines a ring on a 2D data set.\n The ring is defined by r_min, r_max, and\n the position of the center of the ring.\n\n The data returned is the distribution of counts\n around the ring as a function of phi.\n\n Phi_min and phi_max should be defined between 0 and 2*pi\n in anti-clockwise starting from the x- axis on the left-hand side\n '

__init__(r_min=0, r_max=0, center_x=0, center_y=0, nbins=36)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

class sas.sascalc.dataloader.manipulations.Ringcut(r_min=0, r_max=0, center_x=0, center_y=0)[source]

Bases: object

Defines a ring on a 2D data set. The ring is defined by r_min, r_max, and the position of the center of the ring.

The data returned is the region inside the ring

Phi_min and phi_max should be defined between 0 and 2*pi in anti-clockwise starting from the x- axis on the left-hand side

__call__(data2D)[source]

Apply the ring to the data set. Returns the angular distribution for a given q range

Parameters:: data2D – Data2D object
Returns:: index array in the range

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Defines a ring on a 2D data set.\n The ring is defined by r_min, r_max, and\n the position of the center of the ring.\n\n The data returned is the region inside the ring\n\n Phi_min and phi_max should be defined between 0 and 2*pi\n in anti-clockwise starting from the x- axis on the left-hand side\n ', '__init__': <function Ringcut.__init__>, '__call__': <function Ringcut.__call__>, '__dict__': <attribute '__dict__' of 'Ringcut' objects>, '__weakref__': <attribute '__weakref__' of 'Ringcut' objects>, '__annotations__': {}})

__doc__ = '\n Defines a ring on a 2D data set.\n The ring is defined by r_min, r_max, and\n the position of the center of the ring.\n\n The data returned is the region inside the ring\n\n Phi_min and phi_max should be defined between 0 and 2*pi\n in anti-clockwise starting from the x- axis on the left-hand side\n '

__init__(r_min=0, r_max=0, center_x=0, center_y=0)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

class sas.sascalc.dataloader.manipulations.SectorPhi(r_min, r_max, phi_min=0, phi_max=6.283185307179586, nbins=20, base=None)[source]

Bases: _Sector

Sector average as a function of phi. I(phi) is return and the data is averaged over Q.

A sector is defined by r_min, r_max, phi_min, phi_max. The number of bin in phi also has to be defined.

__call__(data2D)[source]

Perform sector average and return I(phi).

Parameters:: data2D – Data2D object
Returns:: Data1D object

__doc__ = '\n Sector average as a function of phi.\n I(phi) is return and the data is averaged over Q.\n\n A sector is defined by r_min, r_max, phi_min, phi_max.\n The number of bin in phi also has to be defined.\n '

__module__ = 'sas.sascalc.dataloader.manipulations'

class sas.sascalc.dataloader.manipulations.SectorQ(r_min, r_max, phi_min=0, phi_max=6.283185307179586, nbins=20, base=None)[source]

Bases: _Sector

Sector average as a function of Q for both symatric wings. I(Q) is return and the data is averaged over phi.

A sector is defined by r_min, r_max, phi_min, phi_max. r_min, r_max, phi_min, phi_max >0. The number of bin in Q also has to be defined.

__call__(data2D)[source]

Perform sector average and return I(Q).

Parameters:: data2D – Data2D object
Returns:: Data1D object

__doc__ = '\n Sector average as a function of Q for both symatric wings.\n I(Q) is return and the data is averaged over phi.\n\n A sector is defined by r_min, r_max, phi_min, phi_max.\n r_min, r_max, phi_min, phi_max >0.\n The number of bin in Q also has to be defined.\n '

__module__ = 'sas.sascalc.dataloader.manipulations'

class sas.sascalc.dataloader.manipulations.Sectorcut(phi_min=0, phi_max=3.141592653589793)[source]

Bases: object

Defines a sector (major + minor) region on a 2D data set. The sector is defined by phi_min, phi_max, where phi_min and phi_max are defined by the right and left lines wrt central line.

Phi_min and phi_max are given in units of radian and (phi_max-phi_min) should not be larger than pi

__call__(data2D)[source]

Find a rectangular 2D region of interest.

Parameters:: data2D – Data2D object
Returns:: mask, 1d array (len = len(data))

with Trues where the data points are inside ROI, otherwise False

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Defines a sector (major + minor) region on a 2D data set.\n The sector is defined by phi_min, phi_max,\n where phi_min and phi_max are defined by the right\n and left lines wrt central line.\n\n Phi_min and phi_max are given in units of radian\n and (phi_max-phi_min) should not be larger than pi\n ', '__init__': <function Sectorcut.__init__>, '__call__': <function Sectorcut.__call__>, '_find': <function Sectorcut._find>, '__dict__': <attribute '__dict__' of 'Sectorcut' objects>, '__weakref__': <attribute '__weakref__' of 'Sectorcut' objects>, '__annotations__': {}})

__doc__ = '\n Defines a sector (major + minor) region on a 2D data set.\n The sector is defined by phi_min, phi_max,\n where phi_min and phi_max are defined by the right\n and left lines wrt central line.\n\n Phi_min and phi_max are given in units of radian\n and (phi_max-phi_min) should not be larger than pi\n '

__init__(phi_min=0, phi_max=3.141592653589793)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

_find(data2D)[source]

Find a rectangular 2D region of interest.

Parameters:: data2D – Data2D object
Returns:: out, 1d array (length = len(data))

with Trues where the data points are inside ROI, otherwise Falses

class sas.sascalc.dataloader.manipulations.SlabX(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0, bin_width=0.001, fold=False)[source]

Bases: _Slab

Compute average I(Qx) for a region of interest

__call__(data2D)[source]: Compute average I(Qx) for a region of interest :param data2D: Data2D object :return: Data1D object

__doc__ = '\n Compute average I(Qx) for a region of interest\n '

__module__ = 'sas.sascalc.dataloader.manipulations'

class sas.sascalc.dataloader.manipulations.SlabY(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0, bin_width=0.001, fold=False)[source]

Bases: _Slab

Compute average I(Qy) for a region of interest

__call__(data2D)[source]

Compute average I(Qy) for a region of interest

Parameters:: data2D – Data2D object
Returns:: Data1D object

__doc__ = '\n Compute average I(Qy) for a region of interest\n '

__module__ = 'sas.sascalc.dataloader.manipulations'

class sas.sascalc.dataloader.manipulations._Sector(r_min, r_max, phi_min=0, phi_max=6.283185307179586, nbins=20, base=None)[source]

Bases: object

Defines a sector region on a 2D data set. The sector is defined by r_min, r_max, phi_min, phi_max, and the position of the center of the ring where phi_min and phi_max are defined by the right and left lines wrt central line and phi_max could be less than phi_min.

Phi is defined between 0 and 2*pi in anti-clockwise starting from the x- axis on the left-hand side

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Defines a sector region on a 2D data set.\n The sector is defined by r_min, r_max, phi_min, phi_max,\n and the position of the center of the ring\n where phi_min and phi_max are defined by the right\n and left lines wrt central line\n and phi_max could be less than phi_min.\n\n Phi is defined between 0 and 2*pi in anti-clockwise\n starting from the x- axis on the left-hand side\n ', '__init__': <function _Sector.__init__>, '_agv': <function _Sector._agv>, '__dict__': <attribute '__dict__' of '_Sector' objects>, '__weakref__': <attribute '__weakref__' of '_Sector' objects>, '__annotations__': {}})

__doc__ = '\n Defines a sector region on a 2D data set.\n The sector is defined by r_min, r_max, phi_min, phi_max,\n and the position of the center of the ring\n where phi_min and phi_max are defined by the right\n and left lines wrt central line\n and phi_max could be less than phi_min.\n\n Phi is defined between 0 and 2*pi in anti-clockwise\n starting from the x- axis on the left-hand side\n '

__init__(r_min, r_max, phi_min=0, phi_max=6.283185307179586, nbins=20, base=None)[source]

Parameters:: base – must be a valid base for an algorithm, i.e.,

a positive number

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

_agv(data2D, run='phi')[source]

Perform sector averaging.

Parameters:

data2D – Data2D object
run – define the varying parameter (‘phi’ , ‘q’ , or ‘q2’)

Returns:

Data1D object

class sas.sascalc.dataloader.manipulations._Slab(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0, bin_width=0.001, fold=False)[source]

Bases: object

Compute average I(Q) for a region of interest

__call__(data2D)[source]: Call self as a function.

__dict__ = mappingproxy({'__module__': 'sas.sascalc.dataloader.manipulations', '__doc__': '\n Compute average I(Q) for a region of interest\n ', '__init__': <function _Slab.__init__>, '__call__': <function _Slab.__call__>, '_avg': <function _Slab._avg>, '__dict__': <attribute '__dict__' of '_Slab' objects>, '__weakref__': <attribute '__weakref__' of '_Slab' objects>, '__annotations__': {}})

__doc__ = '\n Compute average I(Q) for a region of interest\n '

__init__(x_min=0.0, x_max=0.0, y_min=0.0, y_max=0.0, bin_width=0.001, fold=False)[source]

__module__ = 'sas.sascalc.dataloader.manipulations'

__weakref__: list of weak references to the object (if defined)

_avg(data2D, maj)[source]

Compute average I(Q_maj) for a region of interest. The major axis is defined as the axis of Q_maj. The minor axis is the axis that we average over.

Parameters:

data2D – Data2D object
maj_min – min value on the major axis

Returns:

Data1D object

sas.sascalc.dataloader.manipulations.flip_phi(phi)[source]

Correct phi to within the 0 <= to <= 2pi range

Returns:: phi in >=0 and <=2Pi

sas.sascalc.dataloader.manipulations.get_dq_data(data2D)[source]: Get the dq for resolution averaging The pinholes and det. pix contribution present in both direction of the 2D which must be subtracted when converting to 1D: dq_overlap should calculated ideally at q = 0. Note This method works on only pinhole geometry. Extrapolate dqx(r) and dqy(phi) at q = 0, and take an average.

sas.sascalc.dataloader.manipulations.get_intercept(q, q_0, q_1)[source]

Returns the fraction of the side at which the q-value intercept the pixel, None otherwise. The values returned is the fraction ON THE SIDE OF THE LOWEST Q.

    A           B
+-----------+--------+    <--- pixel size
0                    1
Q_0 -------- Q ----- Q_1   <--- equivalent Q range
if Q_1 > Q_0, A is returned
if Q_1 < Q_0, B is returned
if Q is outside the range of [Q_0, Q_1], None is returned

sas.sascalc.dataloader.manipulations.get_pixel_fraction(qmax, q_00, q_01, q_10, q_11)[source]

Returns the fraction of the pixel defined by the four corners (q_00, q_01, q_10, q_11) that has q < qmax.:

        q_01                q_11
y=1         +--------------+
            |              |
            |              |
            |              |
y=0         +--------------+
        q_00                q_10

            x=0            x=1

sas.sascalc.dataloader.manipulations.get_pixel_fraction_square(x, xmin, xmax)[source]

Return the fraction of the length from xmin to x.:

    A            B
+-----------+---------+
xmin        x         xmax

Parameters:

x – x-value
xmin – minimum x for the length considered
xmax – minimum x for the length considered

Returns:

(x-xmin)/(xmax-xmin) when xmin < x < xmax

sas.sascalc.dataloader.manipulations.get_q(dx, dy, det_dist, wavelength)[source]

Parameters:

dx – x-distance from beam center [mm]
dy – y-distance from beam center [mm]

Returns:

q-value at the given position

sas.sascalc.dataloader.manipulations.get_q_compo(dx, dy, det_dist, wavelength, compo=None)[source]: This reduces tiny error at very large q. Implementation of this func is not started yet.<–ToDo

sas.sascalc.dataloader.manipulations.reader2D_converter(data2d=None)[source]

convert old 2d format opened by IhorReader or danse_reader to new Data2D format This is mainly used by the Readers

Parameters:: data2d – 2d array of Data2D object
Returns:: 1d arrays of Data2D object

sas.sascalc.dataloader package

Subpackages

Submodules

sas.sascalc.dataloader.data_info module

sas.sascalc.dataloader.file_reader_base_class module

sas.sascalc.dataloader.loader module

sas.sascalc.dataloader.loader_exceptions module

sas.sascalc.dataloader.manipulations module

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