[51f14603] | 1 | """ |
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[78a205a] | 2 | State class for the invariant UI |
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[51f14603] | 3 | """ |
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| 4 | |
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[78a205a] | 5 | # import time |
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[51f14603] | 6 | import os |
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| 7 | import sys |
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| 8 | import logging |
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| 9 | import copy |
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[b699768] | 10 | import sas.sascalc.dataloader |
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[78a205a] | 11 | # from xml.dom.minidom import parse |
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[51f14603] | 12 | from lxml import etree |
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[b699768] | 13 | from sas.sascalc.dataloader.readers.cansas_reader import Reader as CansasReader |
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| 14 | from sas.sascalc.dataloader.readers.cansas_reader import get_content |
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[d85c194] | 15 | from sas.sasgui.guiframe.utils import format_number |
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| 16 | from sas.sasgui.guiframe.gui_style import GUIFRAME_ID |
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| 17 | from sas.sasgui.guiframe.dataFitting import Data1D |
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[51f14603] | 18 | |
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| 19 | INVNODE_NAME = 'invariant' |
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| 20 | CANSAS_NS = "cansas1d/1.0" |
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| 21 | |
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| 22 | # default state |
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[78a205a] | 23 | DEFAULT_STATE = {'file': 'None', |
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| 24 | 'compute_num':0, |
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| 25 | 'state_num':0, |
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| 26 | 'is_time_machine':False, |
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| 27 | 'background_tcl':0.0, |
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| 28 | 'scale_tcl':1.0, |
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| 29 | 'contrast_tcl':1.0, |
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| 30 | 'porod_constant_tcl':'', |
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| 31 | 'npts_low_tcl':10, |
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| 32 | 'npts_high_tcl':10, |
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| 33 | 'power_high_tcl':4.0, |
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| 34 | 'power_low_tcl': 4.0, |
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| 35 | 'enable_high_cbox':False, |
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| 36 | 'enable_low_cbox':False, |
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| 37 | 'guinier': True, |
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| 38 | 'power_law_high': False, |
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| 39 | 'power_law_low': False, |
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| 40 | 'fit_enable_high': False, |
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| 41 | 'fit_enable_low': False, |
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| 42 | 'fix_enable_high':True, |
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| 43 | 'fix_enable_low':True, |
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| 44 | 'volume_tcl':'', |
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| 45 | 'volume_err_tcl':'', |
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| 46 | 'surface_tcl':'', |
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| 47 | 'surface_err_tcl':''} |
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| 48 | # list of states: This list will be filled as panel |
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[51f14603] | 49 | # init and the number of states increases |
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| 50 | state_list = {} |
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| 51 | bookmark_list = {} |
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[78a205a] | 52 | # list of input parameters (will be filled up on panel init) used by __str__ |
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[51f14603] | 53 | input_list = {'background_tcl':0, |
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[78a205a] | 54 | 'scale_tcl':0, |
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| 55 | 'contrast_tcl':0, |
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| 56 | 'porod_constant_tcl':'', |
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| 57 | 'npts_low_tcl':0, |
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| 58 | 'npts_high_tcl':0, |
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| 59 | 'power_high_tcl':0, |
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| 60 | 'power_low_tcl': 0} |
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| 61 | # list of output parameters (order sensitive) used by __str__ |
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| 62 | output_list = [["qstar_low", "Q* from low Q extrapolation [1/(cm*A)]"], |
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| 63 | ["qstar_low_err", "dQ* from low Q extrapolation"], |
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| 64 | ["qstar_low_percent", "Q* percent from low Q extrapolation"], |
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| 65 | ["qstar", "Q* from data [1/(cm*A)]"], |
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| 66 | ["qstar_err", "dQ* from data"], |
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| 67 | ["qstar_percent", "Q* percent from data"], |
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| 68 | ["qstar_high", "Q* from high Q extrapolation [1/(cm*A)]"], |
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| 69 | ["qstar_high_err", "dQ* from high Q extrapolation"], |
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[51f14603] | 70 | ["qstar_high_percent", "Q* percent from low Q extrapolation"], |
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[78a205a] | 71 | ["qstar_total", "total Q* [1/(cm*A)]"], |
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| 72 | ["qstar_total_err", "total dQ*"], |
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| 73 | ["volume", "volume fraction"], |
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| 74 | ["volume_err", "volume fraction error"], |
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| 75 | ["surface", "specific surface"], |
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| 76 | ["surface_err", "specific surface error"]] |
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| 77 | |
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[51f14603] | 78 | |
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| 79 | |
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| 80 | class InvariantState(object): |
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| 81 | """ |
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| 82 | Class to hold the state information of the InversionControl panel. |
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| 83 | """ |
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| 84 | def __init__(self): |
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| 85 | """ |
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| 86 | Default values |
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| 87 | """ |
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[78a205a] | 88 | # Input |
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| 89 | self.file = None |
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[51f14603] | 90 | self.data = Data1D(x=[], y=[], dx=None, dy=None) |
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[78a205a] | 91 | self.theory_lowQ = Data1D(x=[], y=[], dy=None) |
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[51f14603] | 92 | self.theory_lowQ.symbol = GUIFRAME_ID.CURVE_SYMBOL_NUM |
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| 93 | self.theory_highQ = Data1D(x=[], y=[], dy=None) |
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| 94 | self.theory_highQ.symbol = GUIFRAME_ID.CURVE_SYMBOL_NUM |
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[78a205a] | 95 | # self.is_time_machine = False |
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| 96 | self.saved_state = DEFAULT_STATE |
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[51f14603] | 97 | self.state_list = state_list |
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| 98 | self.bookmark_list = bookmark_list |
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| 99 | self.input_list = input_list |
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| 100 | self.output_list = output_list |
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[78a205a] | 101 | |
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[51f14603] | 102 | self.compute_num = 0 |
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| 103 | self.state_num = 0 |
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| 104 | self.timestamp = ('00:00:00', '00/00/0000') |
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| 105 | self.container = None |
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[78a205a] | 106 | # plot image |
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[51f14603] | 107 | self.wximbmp = None |
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| 108 | # report_html strings |
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[d85c194] | 109 | import sas.sasgui.perspectives.invariant as invariant |
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[51f14603] | 110 | path = invariant.get_data_path(media='media') |
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[78a205a] | 111 | path_report_html = os.path.join(path, "report_template.html") |
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| 112 | html_template = open(path_report_html, "r") |
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[51f14603] | 113 | self.template_str = html_template.read() |
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| 114 | self.report_str = self.template_str |
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[78a205a] | 115 | # self.report_str_save = None |
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[51f14603] | 116 | html_template.close() |
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[78a205a] | 117 | |
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[51f14603] | 118 | def __str__(self): |
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| 119 | """ |
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| 120 | Pretty print |
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[78a205a] | 121 | |
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[51f14603] | 122 | : return: string representing the state |
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| 123 | """ |
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| 124 | # Input string |
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| 125 | compute_num = self.saved_state['compute_num'] |
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| 126 | compute_state = self.state_list[str(compute_num)] |
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| 127 | my_time, date = self.timestamp |
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| 128 | file_name = self.file |
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| 129 | |
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| 130 | state_num = int(self.saved_state['state_num']) |
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| 131 | state = "\n[Invariant computation for %s: " % file_name |
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| 132 | state += "performed at %s on %s] \n" % (my_time, date) |
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| 133 | state += "State No.: %d \n" % state_num |
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| 134 | state += "\n=== Inputs ===\n" |
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[78a205a] | 135 | |
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[51f14603] | 136 | # text ctl general inputs ( excluding extrapolation text ctl) |
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[78a205a] | 137 | for key, value in self.input_list.iteritems(): |
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[51f14603] | 138 | if value == '': |
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| 139 | continue |
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[78a205a] | 140 | key_split = key.split('_') |
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| 141 | max_ind = len(key_split) - 1 |
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| 142 | if key_split[max_ind] == 'tcl': |
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[51f14603] | 143 | name = "" |
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| 144 | if key_split[1] == 'low' or key_split[1] == 'high': |
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| 145 | continue |
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| 146 | for ind in range(0, max_ind): |
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| 147 | name += " %s" % key_split[ind] |
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| 148 | state += "%s: %s\n" % (name.lstrip(" "), value) |
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[78a205a] | 149 | |
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| 150 | # other input parameters |
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[51f14603] | 151 | extra_lo = compute_state['enable_low_cbox'] |
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| 152 | if compute_state['enable_low_cbox']: |
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| 153 | if compute_state['guinier']: |
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| 154 | extra_lo = 'Guinier' |
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| 155 | else: |
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| 156 | extra_lo = 'Power law' |
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| 157 | extra_hi = compute_state['enable_high_cbox'] |
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| 158 | if compute_state['enable_high_cbox']: |
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| 159 | extra_hi = 'Power law' |
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[78a205a] | 160 | state += "\nExtrapolation: High=%s; Low=%s\n" % (extra_hi, extra_lo) |
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[51f14603] | 161 | low_off = False |
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| 162 | high_off = False |
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[78a205a] | 163 | for key, value in self.input_list.iteritems(): |
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| 164 | key_split = key.split('_') |
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| 165 | max_ind = len(key_split) - 1 |
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| 166 | if key_split[max_ind] == 'tcl': |
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| 167 | name = "" |
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[51f14603] | 168 | # check each buttons whether or not ON or OFF |
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| 169 | if key_split[1] == 'low' or key_split[1] == 'high': |
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| 170 | if not compute_state['enable_low_cbox'] and \ |
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[78a205a] | 171 | key_split[max_ind - 1] == 'low': |
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[51f14603] | 172 | low_off = True |
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[78a205a] | 173 | continue |
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[51f14603] | 174 | elif not compute_state['enable_high_cbox'] and \ |
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[78a205a] | 175 | key_split[max_ind - 1] == 'high': |
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[51f14603] | 176 | high_off = True |
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| 177 | continue |
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| 178 | elif extra_lo == 'Guinier' and key_split[0] == 'power' and \ |
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[78a205a] | 179 | key_split[max_ind - 1] == 'low': |
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[51f14603] | 180 | continue |
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| 181 | for ind in range(0, max_ind): |
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| 182 | name += " %s" % key_split[ind] |
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| 183 | name = name.lstrip(" ") |
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[78a205a] | 184 | if name == "power low": |
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[51f14603] | 185 | if compute_state['fix_enable_low']: |
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| 186 | name += ' (Fixed)' |
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| 187 | else: |
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| 188 | name += ' (Fitted)' |
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[78a205a] | 189 | if name == "power high": |
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[51f14603] | 190 | if compute_state['fix_enable_high']: |
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| 191 | name += ' (Fixed)' |
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| 192 | else: |
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| 193 | name += ' (Fitted)' |
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| 194 | state += "%s: %s\n" % (name, value) |
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| 195 | # Outputs |
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| 196 | state += "\n=== Outputs ===" |
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| 197 | for item in output_list: |
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[78a205a] | 198 | item_split = item[0].split('_') |
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[51f14603] | 199 | # Exclude the extrapolation that turned off |
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| 200 | if len(item_split) > 1: |
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| 201 | if low_off and item_split[1] == 'low': |
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| 202 | continue |
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| 203 | if high_off and item_split[1] == 'high': |
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| 204 | continue |
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| 205 | max_ind = len(item_split) - 1 |
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| 206 | value = None |
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[78a205a] | 207 | if hasattr(self.container, item[0]): |
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[51f14603] | 208 | # Q* outputs |
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[78a205a] | 209 | value = getattr(self.container, item[0]) |
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| 210 | else: |
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[51f14603] | 211 | # other outputs than Q* |
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| 212 | name = item[0] + "_tcl" |
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| 213 | if name in self.saved_state.keys(): |
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[78a205a] | 214 | value = self.saved_state[name] |
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| 215 | |
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| 216 | # Exclude the outputs w/'' |
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[51f14603] | 217 | if value == '': |
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[78a205a] | 218 | continue |
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[51f14603] | 219 | # Error outputs |
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| 220 | if item_split[max_ind] == 'err': |
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| 221 | state += "+- %s " % format_number(value) |
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| 222 | # Percentage outputs |
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| 223 | elif item_split[max_ind] == 'percent': |
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[78a205a] | 224 | value = float(value) * 100 |
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[51f14603] | 225 | state += "(%s %s)" % (format_number(value), '%') |
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| 226 | # Outputs |
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| 227 | else: |
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[78a205a] | 228 | state += "\n%s: %s " % (item[1], |
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| 229 | format_number(value, high=True)) |
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[51f14603] | 230 | # Include warning msg |
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| 231 | if self.container is not None: |
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| 232 | state += "\n\nNote:\n" + self.container.warning_msg |
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| 233 | return state |
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| 234 | |
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| 235 | def clone_state(self): |
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| 236 | """ |
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| 237 | deepcopy the state |
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| 238 | """ |
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| 239 | return copy.deepcopy(self.saved_state) |
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| 240 | |
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| 241 | def toXML(self, file="inv_state.inv", doc=None, entry_node=None): |
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| 242 | """ |
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| 243 | Writes the state of the InversionControl panel to file, as XML. |
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[78a205a] | 244 | |
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[51f14603] | 245 | Compatible with standalone writing, or appending to an |
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| 246 | already existing XML document. In that case, the XML document |
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[78a205a] | 247 | is required. An optional entry node in the XML document |
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[51f14603] | 248 | may also be given. |
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[78a205a] | 249 | |
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[51f14603] | 250 | : param file: file to write to |
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| 251 | : param doc: XML document object [optional] |
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[78a205a] | 252 | : param entry_node: XML node within the document at which we will append the data [optional] |
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[51f14603] | 253 | """ |
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[92a2ecd] | 254 | # TODO: Get this to work |
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[51f14603] | 255 | from xml.dom.minidom import getDOMImplementation |
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| 256 | import time |
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| 257 | timestamp = time.time() |
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| 258 | # Check whether we have to write a standalone XML file |
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| 259 | if doc is None: |
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| 260 | impl = getDOMImplementation() |
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[78a205a] | 261 | |
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| 262 | doc_type = impl.createDocumentType(INVNODE_NAME, "1.0", "1.0") |
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| 263 | |
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[51f14603] | 264 | newdoc = impl.createDocument(None, INVNODE_NAME, doc_type) |
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| 265 | top_element = newdoc.documentElement |
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| 266 | else: |
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| 267 | # We are appending to an existing document |
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| 268 | newdoc = doc |
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| 269 | top_element = newdoc.createElement(INVNODE_NAME) |
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| 270 | if entry_node is None: |
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| 271 | newdoc.documentElement.appendChild(top_element) |
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| 272 | else: |
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| 273 | entry_node.appendChild(top_element) |
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[78a205a] | 274 | |
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[51f14603] | 275 | attr = newdoc.createAttribute("version") |
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| 276 | attr.nodeValue = '1.0' |
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| 277 | top_element.setAttributeNode(attr) |
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[78a205a] | 278 | |
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[51f14603] | 279 | # File name |
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| 280 | element = newdoc.createElement("filename") |
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| 281 | if self.file != None and self.file != '': |
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| 282 | element.appendChild(newdoc.createTextNode(str(self.file))) |
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| 283 | else: |
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| 284 | element.appendChild(newdoc.createTextNode(str(file))) |
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| 285 | top_element.appendChild(element) |
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[78a205a] | 286 | |
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[51f14603] | 287 | element = newdoc.createElement("timestamp") |
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| 288 | element.appendChild(newdoc.createTextNode(time.ctime(timestamp))) |
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| 289 | attr = newdoc.createAttribute("epoch") |
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| 290 | attr.nodeValue = str(timestamp) |
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| 291 | element.setAttributeNode(attr) |
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| 292 | top_element.appendChild(element) |
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[78a205a] | 293 | |
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[51f14603] | 294 | # Current state |
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| 295 | state = newdoc.createElement("state") |
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| 296 | top_element.appendChild(state) |
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[78a205a] | 297 | |
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| 298 | for name, value in self.saved_state.iteritems(): |
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[51f14603] | 299 | element = newdoc.createElement(str(name)) |
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| 300 | element.appendChild(newdoc.createTextNode(str(value))) |
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| 301 | state.appendChild(element) |
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[78a205a] | 302 | |
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[51f14603] | 303 | # State history list |
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| 304 | history = newdoc.createElement("history") |
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| 305 | top_element.appendChild(history) |
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[78a205a] | 306 | |
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[51f14603] | 307 | for name, value in self.state_list.iteritems(): |
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| 308 | history_element = newdoc.createElement('state_' + str(name)) |
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[78a205a] | 309 | for state_name, state_value in value.iteritems(): |
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[51f14603] | 310 | state_element = newdoc.createElement(str(state_name)) |
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| 311 | child = newdoc.createTextNode(str(state_value)) |
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| 312 | state_element.appendChild(child) |
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| 313 | history_element.appendChild(state_element) |
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[78a205a] | 314 | # history_element.appendChild(state_list_element) |
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[51f14603] | 315 | history.appendChild(history_element) |
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| 316 | |
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| 317 | # Bookmarks bookmark_list[self.bookmark_num] = [\ |
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[78a205a] | 318 | # my_time,date,state,comp_state] |
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[51f14603] | 319 | bookmark = newdoc.createElement("bookmark") |
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| 320 | top_element.appendChild(bookmark) |
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[78a205a] | 321 | item_list = ['time', 'date', 'state', 'comp_state'] |
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[51f14603] | 322 | for name, value_list in self.bookmark_list.iteritems(): |
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[78a205a] | 323 | element = newdoc.createElement('mark_' + str(name)) |
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| 324 | _, date, state, comp_state = value_list |
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[51f14603] | 325 | time_element = newdoc.createElement('time') |
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| 326 | time_element.appendChild(newdoc.createTextNode(str(value_list[0]))) |
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| 327 | date_element = newdoc.createElement('date') |
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| 328 | date_element.appendChild(newdoc.createTextNode(str(value_list[1]))) |
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| 329 | state_list_element = newdoc.createElement('state') |
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| 330 | comp_state_list_element = newdoc.createElement('comp_state') |
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| 331 | for state_name, state_value in value_list[2].iteritems(): |
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| 332 | state_element = newdoc.createElement(str(state_name)) |
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| 333 | child = newdoc.createTextNode(str(state_value)) |
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| 334 | state_element.appendChild(child) |
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| 335 | state_list_element.appendChild(state_element) |
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| 336 | for comp_name, comp_value in value_list[3].iteritems(): |
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| 337 | comp_element = newdoc.createElement(str(comp_name)) |
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| 338 | comp_element.appendChild(newdoc.createTextNode(str(comp_value))) |
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| 339 | comp_state_list_element.appendChild(comp_element) |
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| 340 | element.appendChild(time_element) |
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| 341 | element.appendChild(date_element) |
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| 342 | element.appendChild(state_list_element) |
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| 343 | element.appendChild(comp_state_list_element) |
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| 344 | bookmark.appendChild(element) |
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| 345 | |
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| 346 | # Save the file |
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| 347 | if doc is None: |
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| 348 | fd = open('test000', 'w') |
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| 349 | fd.write(newdoc.toprettyxml()) |
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| 350 | fd.close() |
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| 351 | return None |
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| 352 | else: |
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[92a2ecd] | 353 | return newdoc |
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[78a205a] | 354 | |
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[51f14603] | 355 | def fromXML(self, file=None, node=None): |
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| 356 | """ |
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| 357 | Load invariant states from a file |
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[78a205a] | 358 | |
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[51f14603] | 359 | : param file: .inv file |
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[78a205a] | 360 | : param node: node of a XML document to read from |
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[51f14603] | 361 | """ |
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| 362 | if file is not None: |
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| 363 | msg = "InvariantSate no longer supports non-CanSAS" |
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| 364 | msg += " format for invariant files" |
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| 365 | raise RuntimeError, msg |
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[78a205a] | 366 | |
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[51f14603] | 367 | if node.get('version')\ |
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| 368 | and node.get('version') == '1.0': |
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| 369 | |
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| 370 | # Get file name |
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| 371 | entry = get_content('ns:filename', node) |
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| 372 | if entry is not None: |
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| 373 | file_name = entry.text.strip() |
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| 374 | |
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| 375 | # Get time stamp |
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| 376 | entry = get_content('ns:timestamp', node) |
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| 377 | if entry is not None and entry.get('epoch'): |
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| 378 | try: |
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| 379 | timestamp = (entry.get('epoch')) |
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| 380 | except: |
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| 381 | msg = "InvariantSate.fromXML: Could not read" |
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| 382 | msg += " timestamp\n %s" % sys.exc_value |
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| 383 | logging.error(msg) |
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[78a205a] | 384 | |
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[51f14603] | 385 | # Parse bookmarks |
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| 386 | entry_bookmark = get_content('ns:bookmark', node) |
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| 387 | |
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| 388 | for ind in range(1, len(entry_bookmark) + 1): |
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| 389 | temp_state = {} |
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| 390 | temp_bookmark = {} |
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[78a205a] | 391 | entry = get_content('ns:mark_%s' % ind, entry_bookmark) |
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| 392 | |
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[51f14603] | 393 | if entry is not None: |
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| 394 | my_time = get_content('ns:time', entry) |
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| 395 | val_time = str(my_time.text.strip()) |
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| 396 | date = get_content('ns:date', entry) |
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| 397 | val_date = str(date.text.strip()) |
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| 398 | state_entry = get_content('ns:state', entry) |
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[78a205a] | 399 | for item in DEFAULT_STATE: |
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[51f14603] | 400 | input_field = get_content('ns:%s' % item, state_entry) |
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| 401 | val = str(input_field.text.strip()) |
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| 402 | if input_field is not None: |
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[78a205a] | 403 | temp_state[item] = val |
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[51f14603] | 404 | comp_entry = get_content('ns:comp_state', entry) |
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[78a205a] | 405 | |
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| 406 | for item in DEFAULT_STATE: |
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[51f14603] | 407 | input_field = get_content('ns:%s' % item, comp_entry) |
---|
| 408 | val = str(input_field.text.strip()) |
---|
| 409 | if input_field is not None: |
---|
[78a205a] | 410 | temp_bookmark[item] = val |
---|
[51f14603] | 411 | try: |
---|
[78a205a] | 412 | self.bookmark_list[ind] = [val_time, val_date, temp_state, temp_bookmark] |
---|
[51f14603] | 413 | except: |
---|
| 414 | raise "missing components of bookmarks..." |
---|
| 415 | # Parse histories |
---|
| 416 | entry_history = get_content('ns:history', node) |
---|
| 417 | |
---|
| 418 | for ind in range(0, len(entry_history)): |
---|
| 419 | temp_state = {} |
---|
[78a205a] | 420 | entry = get_content('ns:state_%s' % ind, entry_history) |
---|
[51f14603] | 421 | |
---|
| 422 | if entry is not None: |
---|
[78a205a] | 423 | for item in DEFAULT_STATE: |
---|
| 424 | input_field = get_content('ns:%s' % item, entry) |
---|
[51f14603] | 425 | val = str(input_field.text.strip()) |
---|
| 426 | if input_field is not None: |
---|
[78a205a] | 427 | temp_state[item] = val |
---|
| 428 | self.state_list[ind] = temp_state |
---|
| 429 | |
---|
[51f14603] | 430 | # Parse current state (ie, saved_state) |
---|
[78a205a] | 431 | entry = get_content('ns:state', node) |
---|
[51f14603] | 432 | if entry is not None: |
---|
[78a205a] | 433 | for item in DEFAULT_STATE: |
---|
[51f14603] | 434 | input_field = get_content('ns:%s' % item, entry) |
---|
| 435 | val = str(input_field.text.strip()) |
---|
| 436 | if input_field is not None: |
---|
| 437 | self.set_saved_state(name=item, value=val) |
---|
| 438 | self.file = file_name |
---|
[78a205a] | 439 | |
---|
[51f14603] | 440 | def set_report_string(self): |
---|
| 441 | """ |
---|
[78a205a] | 442 | Get the values (strings) from __str__ for report |
---|
[51f14603] | 443 | """ |
---|
| 444 | strings = self.__str__() |
---|
[78a205a] | 445 | |
---|
[51f14603] | 446 | # default string values |
---|
[78a205a] | 447 | for num in range(1, 19): |
---|
[51f14603] | 448 | exec "s_%s = 'NA'" % str(num) |
---|
| 449 | lines = strings.split('\n') |
---|
| 450 | # get all string values from __str__() |
---|
| 451 | for line in range(0, len(lines)): |
---|
| 452 | if line == 1: |
---|
| 453 | s_1 = lines[1] |
---|
| 454 | elif line == 2: |
---|
| 455 | s_2 = lines[2] |
---|
| 456 | else: |
---|
| 457 | item = lines[line].split(':') |
---|
| 458 | item[0] = item[0].strip() |
---|
| 459 | if item[0] == "scale": |
---|
| 460 | s_3 = item[1] |
---|
| 461 | elif item[0] == "porod constant": |
---|
| 462 | s_4 = item[1] |
---|
| 463 | elif item[0] == "background": |
---|
| 464 | s_5 = item[1] |
---|
| 465 | elif item[0] == "contrast": |
---|
| 466 | s_6 = item[1] |
---|
| 467 | elif item[0] == "Extrapolation": |
---|
| 468 | extra = item[1].split(";") |
---|
| 469 | bool_0 = extra[0].split("=") |
---|
| 470 | bool_1 = extra[1].split("=") |
---|
| 471 | s_8 = " " + bool_0[0] + "Q region = " + bool_0[1] |
---|
| 472 | s_7 = " " + bool_1[0] + "Q region = " + bool_1[1] |
---|
| 473 | elif item[0] == "npts low": |
---|
| 474 | s_9 = item[1] |
---|
| 475 | elif item[0] == "npts high": |
---|
| 476 | s_10 = item[1] |
---|
| 477 | elif item[0] == "volume fraction": |
---|
[78a205a] | 478 | val = item[1].split("+-")[0].strip() |
---|
[51f14603] | 479 | error = item[1].split("+-")[1].strip() |
---|
| 480 | s_17 = val + " ± " + error |
---|
| 481 | elif item[0] == "specific surface": |
---|
| 482 | val = item[1].split("+-")[0].strip() |
---|
| 483 | error = item[1].split("+-")[1].strip() |
---|
| 484 | s_18 = val + " ± " + error |
---|
| 485 | elif item[0].split("(")[0].strip() == "power low": |
---|
[78a205a] | 486 | s_11 = item[0] + " =" + item[1] |
---|
[51f14603] | 487 | elif item[0].split("(")[0].strip() == "power high": |
---|
[78a205a] | 488 | s_12 = item[0] + " =" + item[1] |
---|
[51f14603] | 489 | elif item[0].split("[")[0].strip() == "Q* from low Q extrapolation": |
---|
[78a205a] | 490 | # looks messy but this way the symbols +_ and % work on html |
---|
[51f14603] | 491 | val = item[1].split("+-")[0].strip() |
---|
| 492 | error = item[1].split("+-")[1].strip() |
---|
| 493 | err = error.split("%")[0].strip() |
---|
| 494 | percent = error.split("%")[1].strip() |
---|
| 495 | s_13 = val + " ± " + err + "%" + percent |
---|
| 496 | elif item[0].split("[")[0].strip() == "Q* from data": |
---|
| 497 | val = item[1].split("+-")[0].strip() |
---|
| 498 | error = item[1].split("+-")[1].strip() |
---|
| 499 | err = error.split("%")[0].strip() |
---|
| 500 | percent = error.split("%")[1].strip() |
---|
| 501 | s_14 = val + " ± " + err + "%" + percent |
---|
| 502 | elif item[0].split("[")[0].strip() == "Q* from high Q extrapolation": |
---|
| 503 | val = item[1].split("+-")[0].strip() |
---|
| 504 | error = item[1].split("+-")[1].strip() |
---|
| 505 | err = error.split("%")[0].strip() |
---|
| 506 | percent = error.split("%")[1].strip() |
---|
| 507 | s_15 = val + " ± " + err + "%" + percent |
---|
| 508 | elif item[0].split("[")[0].strip() == "total Q*": |
---|
| 509 | val = item[1].split("+-")[0].strip() |
---|
| 510 | error = item[1].split("+-")[1].strip() |
---|
| 511 | s_16 = val + " ± " + error |
---|
| 512 | else: |
---|
| 513 | continue |
---|
| 514 | |
---|
| 515 | s_1 = self._check_html_format(s_1) |
---|
| 516 | file_name = self._check_html_format(self.file) |
---|
| 517 | |
---|
| 518 | # make plot image |
---|
[78a205a] | 519 | self.set_plot_state(extra_high=bool_0[1], extra_low=bool_1[1]) |
---|
[51f14603] | 520 | # get ready for report with setting all the html strings |
---|
| 521 | self.report_str = str(self.template_str) % (s_1, s_2, |
---|
[78a205a] | 522 | s_3, s_4, s_5, s_6, s_7, s_8, |
---|
| 523 | s_9, s_10, s_11, s_12, s_13, s_14, s_15, |
---|
| 524 | s_16, s_17, s_18, file_name, "%s") |
---|
[51f14603] | 525 | |
---|
| 526 | def _check_html_format(self, name): |
---|
| 527 | """ |
---|
| 528 | Check string '%' for html format |
---|
| 529 | """ |
---|
| 530 | if name.count('%'): |
---|
| 531 | name = name.replace('%', '%') |
---|
[78a205a] | 532 | |
---|
[51f14603] | 533 | return name |
---|
[78a205a] | 534 | |
---|
[51f14603] | 535 | def set_saved_state(self, name, value): |
---|
| 536 | """ |
---|
[78a205a] | 537 | Set the state list |
---|
| 538 | |
---|
[51f14603] | 539 | : param name: name of the state component |
---|
| 540 | : param value: value of the state component |
---|
| 541 | """ |
---|
[78a205a] | 542 | rb_list = [['power_law_low', 'guinier'], |
---|
| 543 | ['fit_enable_low', 'fix_enable_low'], |
---|
| 544 | ['fit_enable_high', 'fix_enable_high']] |
---|
[51f14603] | 545 | |
---|
[78a205a] | 546 | self.name = value |
---|
| 547 | self.saved_state[name] = value |
---|
| 548 | # set the count part of radio button clicked |
---|
| 549 | # False for the saved_state |
---|
| 550 | for title, content in rb_list: |
---|
| 551 | if name == title: |
---|
| 552 | name = content |
---|
| 553 | value = False |
---|
| 554 | elif name == content: |
---|
| 555 | name = title |
---|
| 556 | value = False |
---|
| 557 | self.saved_state[name] = value |
---|
| 558 | self.state_num = self.saved_state['state_num'] |
---|
[51f14603] | 559 | |
---|
| 560 | def set_plot_state(self, extra_high=False, extra_low=False): |
---|
| 561 | """ |
---|
| 562 | Build image state that wx.html understand |
---|
| 563 | by plotting, putting it into wx.FileSystem image object |
---|
[78a205a] | 564 | |
---|
[51f14603] | 565 | : extrap_high,extra_low: low/high extrapolations |
---|
| 566 | are possible extra-plots |
---|
| 567 | """ |
---|
| 568 | # some imports |
---|
| 569 | import wx |
---|
| 570 | import matplotlib.pyplot as plt |
---|
| 571 | from matplotlib.backends.backend_agg import FigureCanvasAgg |
---|
| 572 | |
---|
[78a205a] | 573 | # we use simple plot, not plotpanel |
---|
| 574 | # make matlab figure |
---|
[51f14603] | 575 | fig = plt.figure() |
---|
| 576 | fig.set_facecolor('w') |
---|
| 577 | graph = fig.add_subplot(111) |
---|
| 578 | |
---|
[78a205a] | 579 | # data plot |
---|
[51f14603] | 580 | graph.errorbar(self.data.x, self.data.y, yerr=self.data.dy, fmt='o') |
---|
[78a205a] | 581 | # low Q extrapolation fit plot |
---|
[51f14603] | 582 | if not extra_low == 'False': |
---|
[78a205a] | 583 | graph.plot(self.theory_lowQ.x, self.theory_lowQ.y) |
---|
| 584 | # high Q extrapolation fit plot |
---|
[51f14603] | 585 | if not extra_high == 'False': |
---|
[78a205a] | 586 | graph.plot(self.theory_highQ.x, self.theory_highQ.y) |
---|
[51f14603] | 587 | graph.set_xscale("log", nonposx='clip') |
---|
| 588 | graph.set_yscale("log", nonposy='clip') |
---|
[78a205a] | 589 | graph.set_xlabel('$\\rm{Q}(\\AA^{-1})$', fontsize=12) |
---|
| 590 | graph.set_ylabel('$\\rm{Intensity}(cm^{-1})$', fontsize=12) |
---|
[51f14603] | 591 | canvas = FigureCanvasAgg(fig) |
---|
[78a205a] | 592 | # actually make image |
---|
[51f14603] | 593 | canvas.draw() |
---|
[78a205a] | 594 | |
---|
| 595 | # make python.Image object |
---|
| 596 | # size |
---|
[51f14603] | 597 | w, h = canvas.get_width_height() |
---|
[78a205a] | 598 | # convert to wx.Image |
---|
| 599 | wximg = wx.EmptyImage(w, h) |
---|
| 600 | # wxim.SetData(img.convert('RGB').tostring() ) |
---|
| 601 | wximg.SetData(canvas.tostring_rgb()) |
---|
| 602 | # get the dynamic image for the htmlwindow |
---|
[51f14603] | 603 | wximgbmp = wx.BitmapFromImage(wximg) |
---|
[78a205a] | 604 | # store the image in wx.FileSystem Object |
---|
[51f14603] | 605 | wx.FileSystem.AddHandler(wx.MemoryFSHandler()) |
---|
| 606 | # use wx.MemoryFSHandler |
---|
| 607 | self.imgRAM = wx.MemoryFSHandler() |
---|
[78a205a] | 608 | # AddFile, image can be retrieved with 'memory:filename' |
---|
[51f14603] | 609 | self.imgRAM.AddFile('img_inv.png', wximgbmp, wx.BITMAP_TYPE_PNG) |
---|
[78a205a] | 610 | |
---|
[51f14603] | 611 | self.wximgbmp = 'memory:img_inv.png' |
---|
| 612 | self.image = fig |
---|
| 613 | |
---|
| 614 | class Reader(CansasReader): |
---|
| 615 | """ |
---|
| 616 | Class to load a .inv invariant file |
---|
| 617 | """ |
---|
[78a205a] | 618 | # # File type |
---|
[51f14603] | 619 | type_name = "Invariant" |
---|
[78a205a] | 620 | |
---|
| 621 | # # Wildcards |
---|
[51f14603] | 622 | type = ["Invariant file (*.inv)|*.inv", |
---|
[b9a5f0e] | 623 | "SASView file (*.svs)|*.svs"] |
---|
[78a205a] | 624 | # # List of allowed extensions |
---|
| 625 | ext = ['.inv', '.INV', '.svs', 'SVS'] |
---|
| 626 | |
---|
[51f14603] | 627 | def __init__(self, call_back, cansas=True): |
---|
| 628 | """ |
---|
| 629 | Initialize the call-back method to be called |
---|
| 630 | after we load a file |
---|
[78a205a] | 631 | |
---|
[51f14603] | 632 | : param call_back: call-back method |
---|
| 633 | : param cansas: True = files will be written/read in CanSAS format |
---|
[78a205a] | 634 | False = write CanSAS format |
---|
[51f14603] | 635 | """ |
---|
[78a205a] | 636 | # # Call back method to be executed after a file is read |
---|
[51f14603] | 637 | self.call_back = call_back |
---|
[78a205a] | 638 | # # CanSAS format flag |
---|
[51f14603] | 639 | self.cansas = cansas |
---|
| 640 | self.state = None |
---|
| 641 | |
---|
| 642 | def read(self, path): |
---|
[78a205a] | 643 | """ |
---|
[51f14603] | 644 | Load a new invariant state from file |
---|
[78a205a] | 645 | |
---|
[51f14603] | 646 | : param path: file path |
---|
| 647 | : return: None |
---|
| 648 | """ |
---|
| 649 | if self.cansas == True: |
---|
| 650 | return self._read_cansas(path) |
---|
| 651 | else: |
---|
| 652 | return self._read_standalone(path) |
---|
[78a205a] | 653 | |
---|
[51f14603] | 654 | def _read_standalone(self, path): |
---|
[78a205a] | 655 | """ |
---|
[51f14603] | 656 | Load a new invariant state from file. |
---|
| 657 | The invariant node is assumed to be the top element. |
---|
[78a205a] | 658 | |
---|
[51f14603] | 659 | : param path: file path |
---|
| 660 | : return: None |
---|
| 661 | """ |
---|
| 662 | # Read the new state from file |
---|
| 663 | state = InvariantState() |
---|
| 664 | |
---|
| 665 | state.fromXML(file=path) |
---|
[78a205a] | 666 | |
---|
[51f14603] | 667 | # Call back to post the new state |
---|
| 668 | self.call_back(state) |
---|
| 669 | return None |
---|
[78a205a] | 670 | |
---|
[51f14603] | 671 | def _parse_state(self, entry): |
---|
| 672 | """ |
---|
| 673 | Read an invariant result from an XML node |
---|
[78a205a] | 674 | |
---|
| 675 | : param entry: XML node to read from |
---|
[51f14603] | 676 | : return: InvariantState object |
---|
| 677 | """ |
---|
| 678 | state = None |
---|
| 679 | # Locate the invariant node |
---|
| 680 | try: |
---|
| 681 | nodes = entry.xpath('ns:%s' % INVNODE_NAME, |
---|
| 682 | namespaces={'ns': CANSAS_NS}) |
---|
| 683 | # Create an empty state |
---|
| 684 | if nodes != []: |
---|
| 685 | state = InvariantState() |
---|
| 686 | state.fromXML(node=nodes[0]) |
---|
| 687 | except: |
---|
| 688 | msg = "XML document does not contain invariant" |
---|
| 689 | msg += " information.\n %s" % sys.exc_value |
---|
[78a205a] | 690 | logging.info(msg) |
---|
[51f14603] | 691 | return state |
---|
[78a205a] | 692 | |
---|
[51f14603] | 693 | def _read_cansas(self, path): |
---|
[78a205a] | 694 | """ |
---|
[51f14603] | 695 | Load data and invariant information from a CanSAS XML file. |
---|
[78a205a] | 696 | |
---|
[51f14603] | 697 | : param path: file path |
---|
[78a205a] | 698 | : return: Data1D object if a single SASentry was found, |
---|
[51f14603] | 699 | or a list of Data1D objects if multiple entries were found, |
---|
| 700 | or None of nothing was found |
---|
| 701 | : raise RuntimeError: when the file can't be opened |
---|
| 702 | : raise ValueError: when the length of the data vectors are inconsistent |
---|
| 703 | """ |
---|
| 704 | output = [] |
---|
| 705 | if os.path.isfile(path): |
---|
[78a205a] | 706 | basename = os.path.basename(path) |
---|
[51f14603] | 707 | root, extension = os.path.splitext(basename) |
---|
[78a205a] | 708 | |
---|
[51f14603] | 709 | if extension.lower() in self.ext or \ |
---|
| 710 | extension.lower() == '.xml': |
---|
| 711 | tree = etree.parse(path, parser=etree.ETCompatXMLParser()) |
---|
[78a205a] | 712 | |
---|
[51f14603] | 713 | # Check the format version number |
---|
[78a205a] | 714 | # Specifying the namespace will take care of |
---|
| 715 | # the file format version |
---|
[51f14603] | 716 | root = tree.getroot() |
---|
[78a205a] | 717 | |
---|
[51f14603] | 718 | entry_list = root.xpath('/ns:SASroot/ns:SASentry', |
---|
| 719 | namespaces={'ns': CANSAS_NS}) |
---|
[78a205a] | 720 | |
---|
[51f14603] | 721 | for entry in entry_list: |
---|
[78a205a] | 722 | |
---|
[92a2ecd] | 723 | sas_entry, _ = self._parse_entry(entry) |
---|
[51f14603] | 724 | invstate = self._parse_state(entry) |
---|
[78a205a] | 725 | |
---|
| 726 | # invstate could be None when .svs file is loaded |
---|
| 727 | # in this case, skip appending to output |
---|
[51f14603] | 728 | if invstate != None: |
---|
| 729 | sas_entry.meta_data['invstate'] = invstate |
---|
| 730 | sas_entry.filename = invstate.file |
---|
| 731 | output.append(sas_entry) |
---|
| 732 | else: |
---|
| 733 | raise RuntimeError, "%s is not a file" % path |
---|
| 734 | |
---|
| 735 | # Return output consistent with the loader's api |
---|
| 736 | if len(output) == 0: |
---|
| 737 | return None |
---|
| 738 | elif len(output) == 1: |
---|
| 739 | # Call back to post the new state |
---|
| 740 | self.state = output[0].meta_data['invstate'] |
---|
| 741 | self.call_back(state=output[0].meta_data['invstate'], |
---|
[78a205a] | 742 | datainfo=output[0]) |
---|
[51f14603] | 743 | return output[0] |
---|
| 744 | else: |
---|
[78a205a] | 745 | return output |
---|
| 746 | |
---|
[51f14603] | 747 | def get_state(self): |
---|
| 748 | return self.state |
---|
[78a205a] | 749 | |
---|
[51f14603] | 750 | def write(self, filename, datainfo=None, invstate=None): |
---|
| 751 | """ |
---|
| 752 | Write the content of a Data1D as a CanSAS XML file |
---|
[78a205a] | 753 | |
---|
[51f14603] | 754 | : param filename: name of the file to write |
---|
| 755 | : param datainfo: Data1D object |
---|
| 756 | : param invstate: InvariantState object |
---|
| 757 | """ |
---|
| 758 | # Sanity check |
---|
| 759 | if self.cansas == True: |
---|
[78a205a] | 760 | doc = self.write_toXML(datainfo, invstate) |
---|
[51f14603] | 761 | # Write the XML document |
---|
| 762 | fd = open(filename, 'w') |
---|
| 763 | fd.write(doc.toprettyxml()) |
---|
| 764 | fd.close() |
---|
| 765 | else: |
---|
| 766 | invstate.toXML(file=filename) |
---|
[78a205a] | 767 | |
---|
[51f14603] | 768 | def write_toXML(self, datainfo=None, state=None): |
---|
| 769 | """ |
---|
| 770 | Write toXML, a helper for write() |
---|
[78a205a] | 771 | |
---|
[51f14603] | 772 | : return: xml doc |
---|
| 773 | """ |
---|
| 774 | if datainfo is None: |
---|
[c10d9d6c] | 775 | datainfo = sas.sascalc.dataloader.data_info.Data1D(x=[], y=[]) |
---|
| 776 | elif not issubclass(datainfo.__class__, sas.sascalc.dataloader.data_info.Data1D): |
---|
[51f14603] | 777 | msg = "The cansas writer expects a Data1D" |
---|
| 778 | msg += " instance: %s" % str(datainfo.__class__.__name__) |
---|
| 779 | raise RuntimeError, msg |
---|
[78a205a] | 780 | # make sure title and data run is filled up. |
---|
[51f14603] | 781 | if datainfo.title == None or datainfo.title == '': |
---|
| 782 | datainfo.title = datainfo.name |
---|
[78a205a] | 783 | if datainfo.run_name == None or datainfo.run_name == {}: |
---|
[51f14603] | 784 | datainfo.run = [str(datainfo.name)] |
---|
| 785 | datainfo.run_name[0] = datainfo.name |
---|
| 786 | # Create basic XML document |
---|
| 787 | doc, sasentry = self._to_xml_doc(datainfo) |
---|
| 788 | # Add the invariant information to the XML document |
---|
| 789 | if state is not None: |
---|
[78a205a] | 790 | doc = state.toXML(datainfo.name, doc=doc, entry_node=sasentry) |
---|
[51f14603] | 791 | return doc |
---|
| 792 | |
---|