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215 lines
8.1 KiB
Python
215 lines
8.1 KiB
Python
"""
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(c) 2018 - 2021, Vanderbilt University Medical Center
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Steve L. Nyemba, steve.l.nyemba@vumc.org
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This file is designed to handle preconditions for a generative adversarial network:
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- The file will read/get data from a source specified by transport (or data-frame)
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- The class will convert the data to a binary vector
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- The class will also help rebuild the data from a binary matrix.
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Usage :
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"""
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import transport
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import json
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import pandas as pd
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import numpy as np
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# import cupy as cp
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import sys
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import os
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#
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# The following is to address the issue over creating a large matrix ...
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#
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# from multiprocessing import Process, Queue
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# if 'GPU' in os.environ :
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# import cupy as np
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# else:
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# import numpy as np
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class void:
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pass
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class Hardware :
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"""
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This class is intended to allow the use of hardware i.e GPU, index or CPU
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"""
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pass
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class Input :
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"""
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This class is designed to read data from a source and and perform a variet of operations :
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- provide a feature space, and rows (matrix profile)
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- a data index map
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"""
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def __init__(self,**_args):
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"""
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:param data
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:param store data-store parameters/configuration
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:param sql sql query that pulls a representative sample of the data
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"""
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self._schema = _args['schema'] if 'schema' in _args else {}
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self.df = _args['data']
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if 'sql' not in _args :
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self._initdata(**_args)
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#
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pass
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else:
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self._initsql(**_args)
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#
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# We need to have a means to map of values,columns and vector positions in order
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# to perform convert and revert to and from binary
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#
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self._map = {} if 'map' not in _args else _args['map']
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def _initsql(self,**_args):
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"""
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This function will initialize the class on the basis of a data-store and optionally pre-defined columns to be used to be synthesized
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:param store data-store configuration
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:param columns list of columns to be
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"""
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if 'columns' not in _args :
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self._initcols(data=self.df)
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else:
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self._initcols(data=self.df,columns=_args['columns'])
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pass
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def _initcols (self,**_args) :
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"""
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This function will initialize the columns to be synthesized and/or determine which ones can be synthesized
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:param data data-frame that holds the data (matrix)
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:param columns optional columns to be synthesized
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"""
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# df = _args['data'].copy()
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row_count = self.df.shape[0]
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cols = None if 'columns' not in _args else _args['columns']
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self.columns = self.df.columns.tolist()
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self._io = []
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if 'columns' in _args :
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self._columns = _args['columns']
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# else:
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#
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# We will look into the count and make a judgment call
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_df = pd.DataFrame(self.df.apply(lambda col: col.dropna().unique().size )).T
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MIN_SPACE_SIZE = 2
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self._columns = cols if cols else _df.apply(lambda col:None if col[0] == row_count or col[0] < MIN_SPACE_SIZE else col.name).dropna().tolist()
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self._io = _df.to_dict(orient='records')
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def _initdata(self,**_args):
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"""
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This function will initialize the class with a data-frame and columns of interest (if any)
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:param data data-frame that holds the data
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:param columns columns that need to be synthesized if any
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"""
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self._initcols(**_args)
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def convert(self,**_args):
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"""
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This function will convert a data-frame into a binary matrix and provide a map to be able to map the values back to the matrix
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:param columns in case we specify the columns to account for (just in case the original assumptions don't hold)
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"""
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if 'columns' in _args or 'column' in _args :
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columns = _args['columns'] if 'columns' in _args else [_args['column']]
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else:
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columns = self._columns
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_df = self.df if 'data' not in _args else _args['data']
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#
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# At this point we have the list of features we want to use
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i = 0
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_m = np.array([])
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_values = []
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for name in columns :
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#
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# In case we have dataset with incomplete value space, we should still be able to generate something meaningful
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#
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values = None if name not in self._map else list(self._map[name]['values'])
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_type = self._schema[name] if name in self._schema else _df[name].dtype
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cols, _matrix = self.tobinary(_df[name],values)
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_beg,_end = i,i+len(cols)
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if name not in self._map :
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self._map[name] = {"beg":_beg,"end":_end ,"values":cols}
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i += len(cols)
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if not _m.shape[0]:
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_m = _matrix ;
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else:
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_m = np.concatenate((_m,_matrix),axis=1)
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if values :
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_values += list(values)
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#
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# @NOTE:
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# The map should allow us to be able to convert or reconvert the binary matrix to whatever we want ...
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#
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# self._matrix = _m
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return _values,_m
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def revert(self,**_args) :
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"""
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This function will take in a binary matrix and based on the map of values it will repopulate it with values
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:param _matrix binary matrix
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:param column|columns column name or columns if the column is specified
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"""
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_column = _args['column'] if 'column' in _args else None
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matrix = _args['matrix']
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row_count = matrix.shape[0]
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r = {}
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for key in self._map :
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if _column and key != _column :
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continue
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_item = self._map[key]
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_beg = _item['beg']
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_end = _item['end']
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columns = np.array(_item['values'])
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#
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# @NOTE: We are accessing matrices in terms of [row,col],
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# The beg,end variables are for the columns in the matrix (mini matrix)
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#
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# if not _column :
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# _matrix = matrix[:,_beg:_end] #-- The understanding is that _end is not included
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# else:
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# _matrix = matrix
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_matrix = matrix[:,_beg:_end]
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#
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# vectorize the matrix to replace the bits by their actual values (accounting for the data-types)
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# @TODO: Find ways to do this on a GPU (for big data) or across threads
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#
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row_count = _matrix.shape[0]
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# r[key] = [columns[np.where(row == 1) [0][0] ] for row in _matrix[:,_beg:_end]]
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r[key] = [columns[np.where(row==1)[0][0]] if np.where(row==1)[0].size > 0 else '' for row in _matrix]
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return pd.DataFrame(r)
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def tobinary(self,rows,cols=None) :
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"""
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This function will compile a binary matrix from a row of values this allows hopefully this can be done in parallel, this function can be vectorized and processed
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:param rows np.array or list of vector of values
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:param cols a space of values if it were to be different fromt he current sample.
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"""
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if not cols:
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#
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# In the advent the sample rows do NOT have the values of the
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cols = rows.unique()
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cols = np.array(cols)
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row_count = len(rows)
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# if 'GPU' not in os.environ :
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# _matrix = np.zeros([row_count,cols.size],dtype=int)
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#
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# @NOTE: For some reason, there is an out of memory error created here, this seems to fix it (go figure)
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#
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_matrix = np.array([np.repeat(0,cols.size) for i in range(0,row_count)])
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[np.put(_matrix[i], np.where(cols == rows[i]) ,1)for i in np.arange(row_count) if np.where(cols == rows[i])[0].size > 0]
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# else:
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# _matrix = cp.zeros([row_count,cols.size])
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# [cp.put(_matrix[i], cp.where(cols == rows[i]),1)for i in cp.arange(row_count) ]
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# _matrix = _matrix.asnumpy()
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return cols,_matrix
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