[3c44c66] | 1 | ################################################################################ |
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| 2 | #This software was developed by the University of Tennessee as part of the |
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| 3 | #Distributed Data Analysis of Neutron Scattering Experiments (DANSE) |
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| 4 | #project funded by the US National Science Foundation. |
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| 5 | # |
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| 6 | #See the license text in license.txt |
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| 7 | # |
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| 8 | #copyright 2010, University of Tennessee |
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| 9 | ################################################################################ |
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| 10 | """ |
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| 11 | This module manages all data loaded into the application. Data_manager makes |
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| 12 | available all data loaded for the current perspective. |
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| 13 | |
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[f444b20] | 14 | All modules "creating Data" posts their data to data_manager . |
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| 15 | Data_manager make these new data available for all other perspectives. |
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[3c44c66] | 16 | """ |
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[f444b20] | 17 | import logging |
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[0348245] | 18 | import os |
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[c70eb7c] | 19 | import copy |
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| 20 | |
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[c5e84fb] | 21 | from sans.guiframe.data_state import DataState |
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[75fbd17] | 22 | from sans.guiframe.utils import parse_name |
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[c642155] | 23 | import sans.dataloader.data_info as DataInfo |
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[0348245] | 24 | from sans.guiframe.dataFitting import Data1D |
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| 25 | from sans.guiframe.dataFitting import Data2D |
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[5080cda] | 26 | import time |
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[a07e72f] | 27 | |
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[3c44c66] | 28 | class DataManager(object): |
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| 29 | """ |
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[f444b20] | 30 | Manage a list of data |
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[3c44c66] | 31 | """ |
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[f444b20] | 32 | def __init__(self): |
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[3c44c66] | 33 | """ |
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[aebc4cc] | 34 | Store opened path and data object created at the loading time |
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[f444b20] | 35 | :param auto_plot: if True the datamanager sends data to plotting |
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| 36 | plugin. |
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| 37 | :param auto_set_data: if True the datamanager sends to the current |
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| 38 | perspective |
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[4e9583c] | 39 | """ |
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[f444b20] | 40 | self.stored_data = {} |
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[aebc4cc] | 41 | self.message = "" |
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[75fbd17] | 42 | self.data_name_dict = {} |
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[5080cda] | 43 | self.count = 0 |
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| 44 | self.list_of_id = [] |
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[7ad8faa] | 45 | self.time_stamp = time.time() |
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[f444b20] | 46 | |
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[c70eb7c] | 47 | def __str__(self): |
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| 48 | _str = "" |
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| 49 | _str += "No of states is %s \n" % str(len(self.stored_data)) |
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| 50 | n_count = 0 |
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| 51 | for value in self.stored_data.values(): |
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| 52 | n_count += 1 |
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| 53 | _str += "State No %s \n" % str(n_count) |
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| 54 | _str += str(value) + "\n" |
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| 55 | return _str |
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| 56 | |
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[0348245] | 57 | def create_gui_data(self, data, path=None): |
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| 58 | """ |
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| 59 | Receive data from loader and create a data to use for guiframe |
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| 60 | """ |
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| 61 | |
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[5080cda] | 62 | if issubclass(Data2D, data.__class__): |
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[0348245] | 63 | new_plot = Data2D(image=None, err_image=None) |
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| 64 | else: |
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| 65 | new_plot = Data1D(x=[], y=[], dx=None, dy=None) |
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| 66 | |
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| 67 | new_plot.copy_from_datainfo(data) |
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| 68 | data.clone_without_data(clone=new_plot) |
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| 69 | #creating a name for data |
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| 70 | name = "" |
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| 71 | title = "" |
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| 72 | file_name = "" |
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| 73 | if path is not None: |
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| 74 | file_name = os.path.basename(path) |
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[e5c7052] | 75 | if file_name == "": |
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| 76 | file_name = data.filename |
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[0348245] | 77 | if data.run: |
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[0c975ab] | 78 | run_num = data.run[0] |
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| 79 | name = file_name |
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[0348245] | 80 | if name == "": |
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[0c975ab] | 81 | name = run_num |
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[0348245] | 82 | name = self.rename(name) |
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| 83 | #find title |
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| 84 | if data.title.strip(): |
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| 85 | title = data.title |
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| 86 | if title.strip() == "": |
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| 87 | title = file_name |
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| 88 | |
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| 89 | if new_plot.filename.strip() == "": |
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| 90 | new_plot.filename = file_name |
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| 91 | |
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| 92 | new_plot.name = name |
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| 93 | new_plot.title = title |
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| 94 | ## allow to highlight data when plotted |
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| 95 | new_plot.interactive = True |
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| 96 | ## when 2 data have the same id override the 1 st plotted |
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[7ad8faa] | 97 | self.time_stamp += 1 |
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[248b918] | 98 | new_plot.id = str(name) + str(self.time_stamp) |
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[0348245] | 99 | ##group_id specify on which panel to plot this data |
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[248b918] | 100 | new_plot.group_id = str(name) + str(self.time_stamp) |
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[0348245] | 101 | new_plot.is_data = True |
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| 102 | new_plot.path = path |
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[52d3fd1] | 103 | new_plot.list_group_id = [] |
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[0348245] | 104 | ##post data to plot |
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| 105 | # plot data |
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| 106 | return new_plot |
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| 107 | |
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[75fbd17] | 108 | def rename(self, name): |
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| 109 | """ |
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| 110 | rename data |
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| 111 | """ |
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| 112 | ## name of the data allow to differentiate data when plotted |
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| 113 | name = parse_name(name=name, expression="_") |
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| 114 | |
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| 115 | max_char = name.find("[") |
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| 116 | if max_char < 0: |
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| 117 | max_char = len(name) |
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| 118 | name = name[0:max_char] |
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| 119 | |
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| 120 | if name not in self.data_name_dict: |
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| 121 | self.data_name_dict[name] = 0 |
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| 122 | else: |
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| 123 | self.data_name_dict[name] += 1 |
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| 124 | name = name + " [" + str(self.data_name_dict[name]) + "]" |
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| 125 | return name |
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| 126 | |
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[ec611aad] | 127 | |
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[f444b20] | 128 | def add_data(self, data_list): |
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| 129 | """ |
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| 130 | receive a list of |
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| 131 | """ |
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[e88ebfd] | 132 | for id, data in data_list.iteritems(): |
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| 133 | if id in self.stored_data: |
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[f444b20] | 134 | msg = "Data manager already stores %s" % str(data.name) |
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| 135 | msg += "" |
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| 136 | logging.info(msg) |
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[e88ebfd] | 137 | data_state = self.stored_data[id] |
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[a3c96f7a] | 138 | data_state.data = data |
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[5c4b674] | 139 | else: |
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| 140 | data_state = DataState(data) |
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[a3c96f7a] | 141 | data_state.id = id |
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[b5b2e5b] | 142 | data_state.path = data.path |
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[e88ebfd] | 143 | self.stored_data[id] = data_state |
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| 144 | |
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[c70eb7c] | 145 | def update_data(self, prev_data, new_data): |
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[f444b20] | 146 | """ |
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| 147 | """ |
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[c70eb7c] | 148 | if prev_data.id not in self.stored_data.keys(): |
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[ae83ad3] | 149 | return None, {} |
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[c70eb7c] | 150 | data_state = self.stored_data[prev_data.id] |
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| 151 | self.stored_data[new_data.id] = data_state.clone() |
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| 152 | self.stored_data[new_data.id].data = new_data |
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| 153 | if prev_data.id in self.stored_data.keys(): |
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| 154 | del self.stored_data[prev_data.id] |
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| 155 | return prev_data.id, {new_data.id: self.stored_data[new_data.id]} |
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| 156 | |
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[ec611aad] | 157 | def update_theory(self, theory, data_id=None, state=None): |
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[e88ebfd] | 158 | """ |
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| 159 | """ |
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[ec611aad] | 160 | uid = data_id |
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| 161 | if data_id is None and theory is not None: |
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| 162 | uid = theory.id |
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| 163 | if uid in self.stored_data.keys(): |
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| 164 | data_state = self.stored_data[uid] |
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| 165 | else: |
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| 166 | data_state = DataState() |
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| 167 | data_state.uid = uid |
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| 168 | data_state.set_theory(theory_data=theory, theory_state=state) |
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| 169 | self.stored_data[uid] = data_state |
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| 170 | return {uid: self.stored_data[uid]} |
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| 171 | |
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[e88ebfd] | 172 | |
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[aebc4cc] | 173 | def get_message(self): |
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[3c44c66] | 174 | """ |
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[aebc4cc] | 175 | return message |
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[3c44c66] | 176 | """ |
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[aebc4cc] | 177 | return self.message |
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[3c44c66] | 178 | |
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[df22224] | 179 | def get_by_id(self, id_list=None): |
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[f444b20] | 180 | """ |
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| 181 | """ |
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[df22224] | 182 | _selected_data = {} |
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| 183 | _selected_theory_list = {} |
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| 184 | if id_list is None: |
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[e88ebfd] | 185 | return |
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[df22224] | 186 | for d_id in self.stored_data: |
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| 187 | for search_id in id_list: |
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[e88ebfd] | 188 | data_state = self.stored_data[d_id] |
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| 189 | data = data_state.data |
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| 190 | theory_list = data_state.get_theory() |
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[df22224] | 191 | if search_id == d_id: |
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| 192 | _selected_data[search_id] = data |
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| 193 | if search_id in theory_list.keys(): |
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| 194 | _selected_theory_list[search_id] = theory_list[search_id] |
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| 195 | |
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[e88ebfd] | 196 | return _selected_data, _selected_theory_list |
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| 197 | |
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[e6a93df] | 198 | |
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| 199 | def freeze(self, theory_id): |
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| 200 | """ |
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| 201 | """ |
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| 202 | return self.freeze_theory(self.stored_data.keys(), theory_id) |
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| 203 | |
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[c70eb7c] | 204 | def freeze_theory(self, data_id, theory_id): |
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| 205 | """ |
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| 206 | """ |
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[ee2b492] | 207 | selected_theory = {} |
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[c70eb7c] | 208 | for d_id in data_id: |
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| 209 | if d_id in self.stored_data: |
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| 210 | data_state = self.stored_data[d_id] |
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| 211 | theory_list = data_state.get_theory() |
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| 212 | for t_id in theory_id: |
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| 213 | if t_id in theory_list.keys(): |
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[ee2b492] | 214 | theory_data, theory_state = theory_list[t_id] |
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| 215 | new_theory = copy.deepcopy(theory_data) |
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[5080cda] | 216 | new_theory.id = time.time() |
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[e6a93df] | 217 | new_theory.is_data = True |
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[709cd83] | 218 | new_theory.name += '_@' + \ |
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| 219 | str(new_theory.id)[7:-1].replace('.', '') |
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| 220 | new_theory.title = new_theory.name |
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| 221 | new_theory.label = new_theory.name |
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[ee2b492] | 222 | selected_theory[new_theory.id] = DataState(new_theory) |
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[709cd83] | 223 | self.stored_data[new_theory.id] = \ |
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| 224 | selected_theory[new_theory.id] |
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[bffa3d0] | 225 | |
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[ee2b492] | 226 | return selected_theory |
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[c70eb7c] | 227 | |
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| 228 | |
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| 229 | def delete_data(self, data_id, theory_id=None, delete_all=False): |
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| 230 | """ |
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| 231 | """ |
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[248b918] | 232 | for d_id in data_id: |
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| 233 | if d_id in self.stored_data.keys(): |
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| 234 | data_state = self.stored_data[d_id] |
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| 235 | if data_state.data.name in self.data_name_dict: |
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| 236 | del self.data_name_dict[data_state.data.name] |
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| 237 | del self.stored_data[d_id] |
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[c70eb7c] | 238 | |
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[665c083] | 239 | self.delete_theory(data_id, theory_id) |
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[c70eb7c] | 240 | if delete_all: |
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| 241 | self.stored_data = {} |
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| 242 | self.data_name_dict = {} |
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[213892bc] | 243 | |
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[c70eb7c] | 244 | def delete_theory(self, data_id, theory_id): |
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[213892bc] | 245 | """ |
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| 246 | """ |
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[665c083] | 247 | for d_id in data_id: |
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| 248 | if d_id in self.stored_data: |
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| 249 | data_state = self.stored_data[d_id] |
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| 250 | theory_list = data_state.get_theory() |
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| 251 | if theory_id in theory_list.keys(): |
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| 252 | del theory_list[theory_id] |
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[e88ebfd] | 253 | |
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[6db811e] | 254 | |
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[f444b20] | 255 | def delete_by_id(self, id_list=None): |
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[3c44c66] | 256 | """ |
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[aebc4cc] | 257 | save data and path |
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[3c44c66] | 258 | """ |
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[f444b20] | 259 | for id in id_list: |
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| 260 | if id in self.stored_data: |
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| 261 | del self.stored_data[id] |
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[e88ebfd] | 262 | |
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[aebc4cc] | 263 | |
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[f444b20] | 264 | def get_by_name(self, name_list=None): |
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[3c44c66] | 265 | """ |
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[f444b20] | 266 | return a list of data given a list of data names |
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[3c44c66] | 267 | """ |
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[e88ebfd] | 268 | _selected_data = {} |
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[f444b20] | 269 | for selected_name in name_list: |
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[584c4c4] | 270 | for id, data_state in self.stored_data.iteritems(): |
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| 271 | if data_state.data.name == selected_name: |
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[e88ebfd] | 272 | _selected_data[id] = data_state.data |
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| 273 | return _selected_data |
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[f444b20] | 274 | |
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| 275 | def delete_by_name(self, name_list=None): |
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| 276 | """ |
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| 277 | save data and path |
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| 278 | """ |
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| 279 | for selected_name in name_list: |
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[584c4c4] | 280 | for id, data_state in self.stored_data.iteritems(): |
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| 281 | if data_state.data.name == selected_name: |
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[4752c31] | 282 | del self.stored_data[id] |
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[f444b20] | 283 | |
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[e88ebfd] | 284 | def get_data_state(self, data_id): |
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[f444b20] | 285 | """ |
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| 286 | Send list of selected data |
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| 287 | """ |
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[e88ebfd] | 288 | _selected_data_state = {} |
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| 289 | for id in data_id: |
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| 290 | if id in self.stored_data.keys(): |
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| 291 | _selected_data_state[id] = self.stored_data[id] |
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| 292 | return _selected_data_state |
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[f444b20] | 293 | |
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| 294 | def get_all_data(self): |
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| 295 | """ |
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| 296 | return list of all available data |
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| 297 | """ |
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[584c4c4] | 298 | return self.stored_data |
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[f444b20] | 299 | |
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| 300 | |
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[3c44c66] | 301 | |
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