1 | """ |
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2 | This is the base file reader class most file readers should inherit from. |
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3 | All generic functionality required for a file loader/reader is built into this |
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4 | class |
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5 | """ |
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6 | |
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7 | import os |
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8 | import sys |
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9 | import re |
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10 | import logging |
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11 | from abc import abstractmethod |
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12 | |
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13 | import numpy as np |
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14 | from .loader_exceptions import NoKnownLoaderException, FileContentsException,\ |
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15 | DataReaderException, DefaultReaderException |
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16 | from .data_info import Data1D, Data2D, DataInfo, plottable_1D, plottable_2D,\ |
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17 | combine_data_info_with_plottable |
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18 | |
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19 | logger = logging.getLogger(__name__) |
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20 | |
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21 | if sys.version_info[0] < 3: |
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22 | def decode(s): |
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23 | return s |
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24 | else: |
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25 | def decode(s): |
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26 | return s.decode() if isinstance(s, bytes) else s |
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27 | |
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28 | class FileReader(object): |
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29 | # List of Data1D and Data2D objects to be sent back to data_loader |
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30 | output = [] |
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31 | # Current plottable_(1D/2D) object being loaded in |
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32 | current_dataset = None |
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33 | # Current DataInfo object being loaded in |
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34 | current_datainfo = None |
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35 | # String to describe the type of data this reader can load |
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36 | type_name = "ASCII" |
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37 | # Wildcards to display |
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38 | type = ["Text files (*.txt|*.TXT)"] |
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39 | # List of allowed extensions |
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40 | ext = ['.txt'] |
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41 | # Bypass extension check and try to load anyway |
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42 | allow_all = False |
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43 | # Able to import the unit converter |
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44 | has_converter = True |
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45 | # Open file handle |
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46 | f_open = None |
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47 | # Default value of zero |
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48 | _ZERO = 1e-16 |
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49 | |
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50 | def read(self, filepath): |
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51 | """ |
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52 | Basic file reader |
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53 | |
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54 | :param filepath: The full or relative path to a file to be loaded |
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55 | """ |
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56 | self.reset_state() |
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57 | if os.path.isfile(filepath): |
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58 | basename, extension = os.path.splitext(os.path.basename(filepath)) |
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59 | self.extension = extension.lower() |
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60 | # If the file type is not allowed, return nothing |
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61 | if self.extension in self.ext or self.allow_all: |
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62 | # Try to load the file, but raise an error if unable to. |
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63 | try: |
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64 | self.f_open = open(filepath, 'rb') |
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65 | self.get_file_contents() |
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66 | |
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67 | except DataReaderException as e: |
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68 | self.handle_error_message(e.message) |
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69 | except OSError as e: |
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70 | # If the file cannot be opened |
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71 | msg = "Unable to open file: {}\n".format(filepath) |
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72 | msg += e.message |
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73 | self.handle_error_message(msg) |
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74 | finally: |
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75 | # Close the file handle if it is open |
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76 | if not self.f_open.closed: |
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77 | self.f_open.close() |
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78 | if len(self.output) > 0: |
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79 | # Sort the data that's been loaded |
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80 | self.sort_one_d_data() |
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81 | self.sort_two_d_data() |
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82 | else: |
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83 | msg = "Unable to find file at: {}\n".format(filepath) |
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84 | msg += "Please check your file path and try again." |
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85 | self.handle_error_message(msg) |
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86 | |
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87 | # Return a list of parsed entries that data_loader can manage |
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88 | return self.output |
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89 | |
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90 | def reset_state(self): |
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91 | """ |
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92 | Resets the class state to a base case when loading a new data file so previous |
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93 | data files do not appear a second time |
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94 | """ |
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95 | self.current_datainfo = None |
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96 | self.current_dataset = None |
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97 | self.output = [] |
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98 | |
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99 | def nextline(self): |
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100 | """ |
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101 | Returns the next line in the file as a string. |
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102 | """ |
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103 | #return self.f_open.readline() |
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104 | return decode(self.f_open.readline()) |
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105 | |
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106 | def nextlines(self): |
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107 | """ |
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108 | Returns the next line in the file as a string. |
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109 | """ |
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110 | for line in self.f_open: |
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111 | #yield line |
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112 | yield decode(line) |
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113 | |
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114 | def readall(self): |
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115 | """ |
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116 | Returns the entire file as a string. |
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117 | """ |
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118 | #return self.f_open.read() |
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119 | return decode(self.f_open.read()) |
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120 | |
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121 | def handle_error_message(self, msg): |
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122 | """ |
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123 | Generic error handler to add an error to the current datainfo to |
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124 | propogate the error up the error chain. |
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125 | :param msg: Error message |
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126 | """ |
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127 | if len(self.output) > 0: |
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128 | self.output[-1].errors.append(msg) |
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129 | elif isinstance(self.current_datainfo, DataInfo): |
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130 | self.current_datainfo.errors.append(msg) |
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131 | else: |
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132 | logger.warning(msg) |
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133 | |
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134 | def send_to_output(self): |
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135 | """ |
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136 | Helper that automatically combines the info and set and then appends it |
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137 | to output |
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138 | """ |
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139 | data_obj = combine_data_info_with_plottable(self.current_dataset, |
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140 | self.current_datainfo) |
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141 | self.output.append(data_obj) |
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142 | |
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143 | def sort_one_d_data(self): |
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144 | """ |
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145 | Sort 1D data along the X axis for consistency |
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146 | """ |
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147 | for data in self.output: |
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148 | if isinstance(data, Data1D): |
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149 | # Normalize the units for |
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150 | data.x_unit = self.format_unit(data.x_unit) |
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151 | data.y_unit = self.format_unit(data.y_unit) |
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152 | # Sort data by increasing x and remove 1st point |
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153 | ind = np.lexsort((data.y, data.x)) |
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154 | data.x = np.asarray([data.x[i] for i in ind]).astype(np.float64) |
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155 | data.y = np.asarray([data.y[i] for i in ind]).astype(np.float64) |
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156 | if data.dx is not None: |
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157 | if len(data.dx) == 0: |
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158 | data.dx = None |
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159 | continue |
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160 | data.dx = np.asarray([data.dx[i] for i in ind]).astype(np.float64) |
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161 | if data.dxl is not None: |
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162 | data.dxl = np.asarray([data.dxl[i] for i in ind]).astype(np.float64) |
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163 | if data.dxw is not None: |
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164 | data.dxw = np.asarray([data.dxw[i] for i in ind]).astype(np.float64) |
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165 | if data.dy is not None: |
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166 | if len(data.dy) == 0: |
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167 | data.dy = None |
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168 | continue |
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169 | data.dy = np.asarray([data.dy[i] for i in ind]).astype(np.float64) |
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170 | if data.lam is not None: |
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171 | data.lam = np.asarray([data.lam[i] for i in ind]).astype(np.float64) |
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172 | if data.dlam is not None: |
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173 | data.dlam = np.asarray([data.dlam[i] for i in ind]).astype(np.float64) |
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174 | if len(data.x) > 0: |
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175 | data.xmin = np.min(data.x) |
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176 | data.xmax = np.max(data.x) |
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177 | data.ymin = np.min(data.y) |
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178 | data.ymax = np.max(data.y) |
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179 | |
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180 | def sort_two_d_data(self): |
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181 | for dataset in self.output: |
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182 | if isinstance(dataset, Data2D): |
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183 | # Normalize the units for |
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184 | dataset.x_unit = self.format_unit(dataset.Q_unit) |
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185 | dataset.y_unit = self.format_unit(dataset.I_unit) |
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186 | dataset.data = dataset.data.astype(np.float64) |
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187 | dataset.qx_data = dataset.qx_data.astype(np.float64) |
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188 | dataset.xmin = np.min(dataset.qx_data) |
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189 | dataset.xmax = np.max(dataset.qx_data) |
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190 | dataset.qy_data = dataset.qy_data.astype(np.float64) |
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191 | dataset.ymin = np.min(dataset.qy_data) |
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192 | dataset.ymax = np.max(dataset.qy_data) |
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193 | dataset.q_data = np.sqrt(dataset.qx_data * dataset.qx_data |
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194 | + dataset.qy_data * dataset.qy_data) |
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195 | if dataset.err_data is not None: |
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196 | dataset.err_data = dataset.err_data.astype(np.float64) |
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197 | if dataset.dqx_data is not None: |
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198 | dataset.dqx_data = dataset.dqx_data.astype(np.float64) |
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199 | if dataset.dqy_data is not None: |
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200 | dataset.dqy_data = dataset.dqy_data.astype(np.float64) |
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201 | if dataset.mask is not None: |
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202 | dataset.mask = dataset.mask.astype(dtype=bool) |
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203 | |
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204 | if len(dataset.data.shape) == 2: |
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205 | n_rows, n_cols = dataset.data.shape |
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206 | dataset.y_bins = dataset.qy_data[0::int(n_cols)] |
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207 | dataset.x_bins = dataset.qx_data[:int(n_cols)] |
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208 | dataset.data = dataset.data.flatten() |
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209 | if len(dataset.data) > 0: |
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210 | dataset.xmin = np.min(dataset.qx_data) |
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211 | dataset.xmax = np.max(dataset.qx_data) |
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212 | dataset.ymin = np.min(dataset.qy_data) |
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213 | dataset.ymax = np.max(dataset.qx_data) |
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214 | |
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215 | def format_unit(self, unit=None): |
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216 | """ |
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217 | Format units a common way |
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218 | :param unit: |
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219 | :return: |
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220 | """ |
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221 | if unit: |
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222 | split = unit.split("/") |
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223 | if len(split) == 1: |
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224 | return unit |
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225 | elif split[0] == '1': |
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226 | return "{0}^".format(split[1]) + "{-1}" |
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227 | else: |
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228 | return "{0}*{1}^".format(split[0], split[1]) + "{-1}" |
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229 | |
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230 | def set_all_to_none(self): |
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231 | """ |
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232 | Set all mutable values to None for error handling purposes |
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233 | """ |
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234 | self.current_dataset = None |
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235 | self.current_datainfo = None |
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236 | self.output = [] |
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237 | |
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238 | def data_cleanup(self): |
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239 | """ |
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240 | Clean up the data sets and refresh everything |
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241 | :return: None |
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242 | """ |
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243 | self.remove_empty_q_values() |
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244 | self.send_to_output() # Combine datasets with DataInfo |
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245 | self.current_datainfo = DataInfo() # Reset DataInfo |
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246 | |
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247 | def remove_empty_q_values(self): |
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248 | """ |
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249 | Remove any point where Q == 0 |
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250 | """ |
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251 | if isinstance(self.current_dataset, plottable_1D): |
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252 | # Booleans for resolutions |
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253 | has_error_dx = self.current_dataset.dx is not None |
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254 | has_error_dxl = self.current_dataset.dxl is not None |
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255 | has_error_dxw = self.current_dataset.dxw is not None |
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256 | has_error_dy = self.current_dataset.dy is not None |
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257 | # Create arrays of zeros for non-existent resolutions |
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258 | if has_error_dxw and not has_error_dxl: |
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259 | array_size = self.current_dataset.dxw.size - 1 |
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260 | self.current_dataset.dxl = np.append(self.current_dataset.dxl, |
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261 | np.zeros([array_size])) |
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262 | has_error_dxl = True |
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263 | elif has_error_dxl and not has_error_dxw: |
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264 | array_size = self.current_dataset.dxl.size - 1 |
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265 | self.current_dataset.dxw = np.append(self.current_dataset.dxw, |
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266 | np.zeros([array_size])) |
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267 | has_error_dxw = True |
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268 | elif not has_error_dxl and not has_error_dxw and not has_error_dx: |
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269 | array_size = self.current_dataset.x.size - 1 |
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270 | self.current_dataset.dx = np.append(self.current_dataset.dx, |
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271 | np.zeros([array_size])) |
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272 | has_error_dx = True |
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273 | if not has_error_dy: |
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274 | array_size = self.current_dataset.y.size - 1 |
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275 | self.current_dataset.dy = np.append(self.current_dataset.dy, |
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276 | np.zeros([array_size])) |
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277 | has_error_dy = True |
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278 | |
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279 | # Remove points where q = 0 |
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280 | x = self.current_dataset.x |
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281 | self.current_dataset.x = self.current_dataset.x[x != 0] |
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282 | self.current_dataset.y = self.current_dataset.y[x != 0] |
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283 | if has_error_dy: |
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284 | self.current_dataset.dy = self.current_dataset.dy[x != 0] |
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285 | if has_error_dx: |
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286 | self.current_dataset.dx = self.current_dataset.dx[x != 0] |
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287 | if has_error_dxl: |
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288 | self.current_dataset.dxl = self.current_dataset.dxl[x != 0] |
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289 | if has_error_dxw: |
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290 | self.current_dataset.dxw = self.current_dataset.dxw[x != 0] |
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291 | elif isinstance(self.current_dataset, plottable_2D): |
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292 | has_error_dqx = self.current_dataset.dqx_data is not None |
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293 | has_error_dqy = self.current_dataset.dqy_data is not None |
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294 | has_error_dy = self.current_dataset.err_data is not None |
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295 | has_mask = self.current_dataset.mask is not None |
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296 | x = self.current_dataset.qx_data |
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297 | self.current_dataset.data = self.current_dataset.data[x != 0] |
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298 | self.current_dataset.qx_data = self.current_dataset.qx_data[x != 0] |
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299 | self.current_dataset.qy_data = self.current_dataset.qy_data[x != 0] |
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300 | self.current_dataset.q_data = np.sqrt( |
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301 | np.square(self.current_dataset.qx_data) + np.square( |
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302 | self.current_dataset.qy_data)) |
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303 | if has_error_dy: |
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304 | self.current_dataset.err_data = self.current_dataset.err_data[x != 0] |
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305 | if has_error_dqx: |
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306 | self.current_dataset.dqx_data = self.current_dataset.dqx_data[x != 0] |
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307 | if has_error_dqy: |
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308 | self.current_dataset.dqy_data = self.current_dataset.dqy_data[x != 0] |
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309 | if has_mask: |
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310 | self.current_dataset.mask = self.current_dataset.mask[x != 0] |
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311 | |
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312 | def reset_data_list(self, no_lines=0): |
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313 | """ |
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314 | Reset the plottable_1D object |
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315 | """ |
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316 | # Initialize data sets with arrays the maximum possible size |
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317 | x = np.zeros(no_lines) |
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318 | y = np.zeros(no_lines) |
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319 | dx = np.zeros(no_lines) |
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320 | dy = np.zeros(no_lines) |
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321 | self.current_dataset = plottable_1D(x, y, dx, dy) |
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322 | |
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323 | @staticmethod |
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324 | def splitline(line): |
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325 | """ |
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326 | Splits a line into pieces based on common delimeters |
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327 | :param line: A single line of text |
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328 | :return: list of values |
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329 | """ |
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330 | # Initial try for CSV (split on ,) |
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331 | toks = line.split(',') |
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332 | # Now try SCSV (split on ;) |
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333 | if len(toks) < 2: |
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334 | toks = line.split(';') |
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335 | # Now go for whitespace |
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336 | if len(toks) < 2: |
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337 | toks = line.split() |
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338 | return toks |
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339 | |
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340 | @abstractmethod |
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341 | def get_file_contents(self): |
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342 | """ |
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343 | Reader specific class to access the contents of the file |
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344 | All reader classes that inherit from FileReader must implement |
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345 | """ |
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346 | pass |
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