Source code for sas.sascalc.dataloader.file_reader_base_class

"""
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
"""

import os
import sys
import math
import logging
from abc import abstractmethod

import numpy as np
from .loader_exceptions import NoKnownLoaderException, FileContentsException,\
    DataReaderException, DefaultReaderException
from .data_info import Data1D, Data2D, DataInfo, plottable_1D, plottable_2D,\
    combine_data_info_with_plottable
from sas.sascalc.data_util.nxsunit import Converter

logger = logging.getLogger(__name__)

if sys.version_info[0] < 3:
    def decode(s):
        return s
else:
[docs] def decode(s): return s.decode() if isinstance(s, bytes) else s
# Data 1D fields for iterative purposes FIELDS_1D = ('x', 'y', 'dx', 'dy', 'dxl', 'dxw') # Data 2D fields for iterative purposes FIELDS_2D = ('data', 'qx_data', 'qy_data', 'q_data', 'err_data', 'dqx_data', 'dqy_data', 'mask') DEPRECATION_MESSAGE = ("\rThe extension of this file suggests the data set migh" "t not be fully reduced. Support for the reader associat" "ed with this file type has been removed. An attempt to " "load the file was made, but, should it be successful, " "SasView cannot guarantee the accuracy of the data.")
[docs]class FileReader(object): # String to describe the type of data this reader can load type_name = "ASCII" # Wildcards to display type = ["Text files (*.txt|*.TXT)"] # List of allowed extensions ext = ['.txt'] # Deprecated extensions deprecated_extensions = ['.asc'] # Bypass extension check and try to load anyway allow_all = False # Able to import the unit converter has_converter = True # Default value of zero _ZERO = 1e-16 def __init__(self): # List of Data1D and Data2D objects to be sent back to data_loader self.output = [] # Current plottable_(1D/2D) object being loaded in self.current_dataset = None # Current DataInfo object being loaded in self.current_datainfo = None # File path sent to reader self.filepath = None # Open file handle self.f_open = None
[docs] def read(self, filepath): """ Basic file reader :param filepath: The full or relative path to a file to be loaded """ self.filepath = filepath if os.path.isfile(filepath): basename, extension = os.path.splitext(os.path.basename(filepath)) self.extension = extension.lower() # If the file type is not allowed, return nothing if self.extension in self.ext or self.allow_all: # Try to load the file, but raise an error if unable to. try: self.f_open = open(filepath, 'rb') self.get_file_contents() except DataReaderException as e: self.handle_error_message(e.message) except OSError as e: # If the file cannot be opened msg = "Unable to open file: {}\n".format(filepath) msg += e.message self.handle_error_message(msg) finally: # Close the file handle if it is open if not self.f_open.closed: self.f_open.close() if any(filepath.lower().endswith(ext) for ext in self.deprecated_extensions): self.handle_error_message(DEPRECATION_MESSAGE) if len(self.output) > 0: # Sort the data that's been loaded self.convert_data_units() self.sort_data() else: msg = "Unable to find file at: {}\n".format(filepath) msg += "Please check your file path and try again." self.handle_error_message(msg) # Return a list of parsed entries that data_loader can manage final_data = self.output self.reset_state() return final_data
[docs] def reset_state(self): """ Resets the class state to a base case when loading a new data file so previous data files do not appear a second time """ self.current_datainfo = None self.current_dataset = None self.filepath = None self.ind = None self.output = []
[docs] def nextline(self): """ Returns the next line in the file as a string. """ #return self.f_open.readline() return decode(self.f_open.readline())
[docs] def nextlines(self): """ Returns the next line in the file as a string. """ for line in self.f_open: #yield line yield decode(line)
[docs] def readall(self): """ Returns the entire file as a string. """ return decode(self.f_open.read())
[docs] def handle_error_message(self, msg): """ Generic error handler to add an error to the current datainfo to propagate the error up the error chain. :param msg: Error message """ if len(self.output) > 0: self.output[-1].errors.append(msg) elif isinstance(self.current_datainfo, DataInfo): self.current_datainfo.errors.append(msg) else: logger.warning(msg) raise NoKnownLoaderException(msg)
[docs] def send_to_output(self): """ Helper that automatically combines the info and set and then appends it to output """ data_obj = combine_data_info_with_plottable(self.current_dataset, self.current_datainfo) self.output.append(data_obj)
[docs] def sort_data(self): """ Sort 1D data along the X axis for consistency """ for data in self.output: if isinstance(data, Data1D): # Normalize the units for data.x_unit = self.format_unit(data.x_unit) data._xunit = data.x_unit data.y_unit = self.format_unit(data.y_unit) data._yunit = data.y_unit # Sort data by increasing x and remove 1st point ind = np.lexsort((data.y, data.x)) data.x = self._reorder_1d_array(data.x, ind) data.y = self._reorder_1d_array(data.y, ind) if data.dx is not None: if len(data.dx) == 0: data.dx = None continue data.dx = self._reorder_1d_array(data.dx, ind) if data.dxl is not None: data.dxl = self._reorder_1d_array(data.dxl, ind) if data.dxw is not None: data.dxw = self._reorder_1d_array(data.dxw, ind) if data.dy is not None: if len(data.dy) == 0: data.dy = None continue data.dy = self._reorder_1d_array(data.dy, ind) if data.lam is not None: data.lam = self._reorder_1d_array(data.lam, ind) if data.dlam is not None: data.dlam = self._reorder_1d_array(data.dlam, ind) data = self._remove_nans_in_data(data) if len(data.x) > 0: data.xmin = np.min(data.x) data.xmax = np.max(data.x) data.ymin = np.min(data.y) data.ymax = np.max(data.y) elif isinstance(data, Data2D): # Normalize the units for data.Q_unit = self.format_unit(data.Q_unit) data.I_unit = self.format_unit(data.I_unit) data._xunit = data.Q_unit data._yunit = data.Q_unit data._zunit = data.I_unit data.data = data.data.astype(np.float64) data.qx_data = data.qx_data.astype(np.float64) data.xmin = np.min(data.qx_data) data.xmax = np.max(data.qx_data) data.qy_data = data.qy_data.astype(np.float64) data.ymin = np.min(data.qy_data) data.ymax = np.max(data.qy_data) data.q_data = np.sqrt(data.qx_data * data.qx_data + data.qy_data * data.qy_data) if data.err_data is not None: data.err_data = data.err_data.astype(np.float64) if data.dqx_data is not None: data.dqx_data = data.dqx_data.astype(np.float64) if data.dqy_data is not None: data.dqy_data = data.dqy_data.astype(np.float64) if data.mask is not None: data.mask = data.mask.astype(dtype=bool) if len(data.data.shape) == 2: n_rows, n_cols = data.data.shape data.y_bins = data.qy_data[0::int(n_cols)] data.x_bins = data.qx_data[:int(n_cols)] data.data = data.data.flatten() data = self._remove_nans_in_data(data) if len(data.data) > 0: data.xmin = np.min(data.qx_data) data.xmax = np.max(data.qx_data) data.ymin = np.min(data.qy_data) data.ymax = np.max(data.qy_data)
@staticmethod def _reorder_1d_array(array, ind): """ 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 """ array = np.asarray(array, dtype=np.float64) return array[ind] @staticmethod def _remove_nans_in_data(data): """ Remove data points where nan is loaded :param data: 1D or 2D data object :return: data with nan points removed """ if isinstance(data, Data1D): fields = FIELDS_1D elif isinstance(data, Data2D): fields = FIELDS_2D else: return data # Make array of good points - all others will be removed good = np.isfinite(getattr(data, fields[0])) for name in fields[1:]: array = getattr(data, name) if array is not None: # Update good points only if not already changed good &= np.isfinite(array) if not np.all(good): for name in fields: array = getattr(data, name) if array is not None: setattr(data, name, array[good]) return data @staticmethod
[docs] def set_default_1d_units(data): """ Set the x and y axes to the default 1D units :param data: 1D data set :return: """ data.xaxis(r"\rm{Q}", '1/A') data.yaxis(r"\rm{Intensity}", "1/cm") return data
@staticmethod
[docs] def set_default_2d_units(data): """ Set the x and y axes to the default 2D units :param data: 2D data set :return: """ data.xaxis("\\rm{Q_{x}}", '1/A') data.yaxis("\\rm{Q_{y}}", '1/A') data.zaxis("\\rm{Intensity}", "1/cm") return data
[docs] def convert_data_units(self, default_q_unit="1/A"): """ 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 """ convert_q = True new_output = [] for data in self.output: if data.isSesans: new_output.append(data) continue try: file_x_unit = data._xunit data_conv_x = Converter(file_x_unit) except KeyError: logger.info("Unrecognized Q units in data file. No data " "conversion attempted") convert_q = False try: if isinstance(data, Data1D): if convert_q: data.x = data_conv_x(data.x, units=default_q_unit) data._xunit = default_q_unit data.x_unit = default_q_unit if data.dx is not None: data.dx = data_conv_x(data.dx, units=default_q_unit) if data.dxl is not None: data.dxl = data_conv_x(data.dxl, units=default_q_unit) if data.dxw is not None: data.dxw = data_conv_x(data.dxw, units=default_q_unit) elif isinstance(data, Data2D): if convert_q: data.qx_data = data_conv_x(data.qx_data, units=default_q_unit) if data.dqx_data is not None: data.dqx_data = data_conv_x(data.dqx_data, units=default_q_unit) try: file_y_unit = data._yunit data_conv_y = Converter(file_y_unit) data.qy_data = data_conv_y(data.qy_data, units=default_q_unit) if data.dqy_data is not None: data.dqy_data = data_conv_y(data.dqy_data, units=default_q_unit) except KeyError: logger.info("Unrecognized Qy units in data file. No" " data conversion attempted") except KeyError: message = "Unable to convert Q units from {0} to 1/A." message.format(default_q_unit) data.errors.append(message) new_output.append(data) self.output = new_output
[docs] def format_unit(self, unit=None): """ Format units a common way :param unit: :return: """ if unit: split = unit.split("/") if len(split) == 1: return unit elif split[0] == '1': return "{0}^".format(split[1]) + "{-1}" else: return "{0}*{1}^".format(split[0], split[1]) + "{-1}"
[docs] def set_all_to_none(self): """ Set all mutable values to None for error handling purposes """ self.current_dataset = None self.current_datainfo = None self.output = []
[docs] def data_cleanup(self): """ Clean up the data sets and refresh everything :return: None """ self.remove_empty_q_values() self.send_to_output() # Combine datasets with DataInfo self.current_datainfo = DataInfo() # Reset DataInfo
[docs] def remove_empty_q_values(self): """ Remove any point where Q == 0 """ if isinstance(self.current_dataset, plottable_1D): # Booleans for resolutions has_error_dx = self.current_dataset.dx is not None has_error_dxl = self.current_dataset.dxl is not None has_error_dxw = self.current_dataset.dxw is not None has_error_dy = self.current_dataset.dy is not None # Create arrays of zeros for non-existent resolutions if has_error_dxw and not has_error_dxl: array_size = self.current_dataset.dxw.size - 1 self.current_dataset.dxl = np.append(self.current_dataset.dxl, np.zeros([array_size])) has_error_dxl = True elif has_error_dxl and not has_error_dxw: array_size = self.current_dataset.dxl.size - 1 self.current_dataset.dxw = np.append(self.current_dataset.dxw, np.zeros([array_size])) has_error_dxw = True elif not has_error_dxl and not has_error_dxw and not has_error_dx: array_size = self.current_dataset.x.size - 1 self.current_dataset.dx = np.append(self.current_dataset.dx, np.zeros([array_size])) has_error_dx = True if not has_error_dy: array_size = self.current_dataset.y.size - 1 self.current_dataset.dy = np.append(self.current_dataset.dy, np.zeros([array_size])) has_error_dy = True # Remove points where q = 0 x = self.current_dataset.x self.current_dataset.x = self.current_dataset.x[x != 0] self.current_dataset.y = self.current_dataset.y[x != 0] if has_error_dy: self.current_dataset.dy = self.current_dataset.dy[x != 0] if has_error_dx: self.current_dataset.dx = self.current_dataset.dx[x != 0] if has_error_dxl: self.current_dataset.dxl = self.current_dataset.dxl[x != 0] if has_error_dxw: self.current_dataset.dxw = self.current_dataset.dxw[x != 0] elif isinstance(self.current_dataset, plottable_2D): has_error_dqx = self.current_dataset.dqx_data is not None has_error_dqy = self.current_dataset.dqy_data is not None has_error_dy = self.current_dataset.err_data is not None has_mask = self.current_dataset.mask is not None x = self.current_dataset.qx_data self.current_dataset.data = self.current_dataset.data[x != 0] self.current_dataset.qx_data = self.current_dataset.qx_data[x != 0] self.current_dataset.qy_data = self.current_dataset.qy_data[x != 0] self.current_dataset.q_data = np.sqrt( np.square(self.current_dataset.qx_data) + np.square( self.current_dataset.qy_data)) if has_error_dy: self.current_dataset.err_data = self.current_dataset.err_data[ x != 0] if has_error_dqx: self.current_dataset.dqx_data = self.current_dataset.dqx_data[ x != 0] if has_error_dqy: self.current_dataset.dqy_data = self.current_dataset.dqy_data[ x != 0] if has_mask: self.current_dataset.mask = self.current_dataset.mask[x != 0]
[docs] def reset_data_list(self, no_lines=0): """ Reset the plottable_1D object """ # Initialize data sets with arrays the maximum possible size x = np.zeros(no_lines) y = np.zeros(no_lines) dx = np.zeros(no_lines) dy = np.zeros(no_lines) self.current_dataset = plottable_1D(x, y, dx, dy)
@staticmethod
[docs] def splitline(line): """ Splits a line into pieces based on common delimiters :param line: A single line of text :return: list of values """ # Initial try for CSV (split on ,) toks = line.split(',') # Now try SCSV (split on ;) if len(toks) < 2: toks = line.split(';') # Now go for whitespace if len(toks) < 2: toks = line.split() return toks
@abstractmethod
[docs] def get_file_contents(self): """ Reader specific class to access the contents of the file All reader classes that inherit from FileReader must implement """ pass