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197 lines
6.6 KiB
Python
197 lines
6.6 KiB
Python
"""
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(c) 2019 Data Maker, hiplab.mc.vanderbilt.edu
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version 1.0.0
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This package serves as a proxy to the overall usage of the framework.
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This package is designed to generate synthetic data from a dataset from an original dataset using deep learning techniques
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@TODO:
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- Make configurable GPU, EPOCHS
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"""
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import pandas as pd
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import numpy as np
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import data.gan as gan
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from transport import factory
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from data.bridge import Binary
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import threading as thread
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from data.maker import prepare
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import copy
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import os
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import json
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class ContinuousToDiscrete :
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ROUND_UP = 2
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@staticmethod
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def binary(X,n=4) :
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"""
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This function will convert a continous stream of information into a variety a bit stream of bins
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"""
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values = np.array(X).astype(np.float32)
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BOUNDS = ContinuousToDiscrete.bounds(values,n)
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matrix = np.repeat(np.zeros(n),len(X)).reshape(len(X),n)
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@staticmethod
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def bounds(x,n):
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# return np.array_split(x,n)
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values = np.round(x,ContinuousToDiscrete.ROUND_UP)
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return list(pd.cut(values,n).categories)
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@staticmethod
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def continuous(X,BIN_SIZE=4) :
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"""
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This function will approximate a binary vector given boundary information
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:X binary matrix
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:BIN_SIZE
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"""
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BOUNDS = ContinuousToDiscrete.bounds(X,BIN_SIZE)
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values = []
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# _BINARY= ContinuousToDiscrete.binary(X,BIN_SIZE)
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# # # print (BOUNDS)
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l = {}
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for i in np.arange(len(X)): #value in X :
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value = X[i]
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for item in BOUNDS :
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if value >= item.left and value <= item.right :
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values += [np.round(np.random.uniform(item.left,item.right),ContinuousToDiscrete.ROUND_UP)]
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break
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# values += [ np.round(np.random.uniform(item.left,item.right),ContinuousToDiscrete.ROUND_UP) for item in BOUNDS if value >= item.left and value <= item.right ]
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# # values = []
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# for row in _BINARY :
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# # ubound = BOUNDS[row.index(1)]
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# index = np.where(row == 1)[0][0]
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# ubound = BOUNDS[ index ].right
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# lbound = BOUNDS[ index ].left
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# x_ = np.round(np.random.uniform(lbound,ubound),ContinuousToDiscrete.ROUND_UP).astype(float)
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# values.append(x_)
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# lbound = ubound
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# values = [np.random.uniform() for item in BOUNDS]
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return values
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def train (**_args):
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"""
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:params sql
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:params store
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"""
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_inputhandler = prepare.Input(**_args)
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values,_matrix = _inputhandler.convert()
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args = {"real":_matrix,"context":_args['context']}
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_map = {}
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if 'store' in _args :
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#
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# This
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args['store'] = copy.deepcopy(_args['store']['logs'])
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if 'args' in _args['store']:
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args['store']['args']['doc'] = _args['context']
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else:
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args['store']['doc'] = _args['context']
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logger = factory.instance(**args['store'])
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args['logger'] = logger
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for key in _inputhandler._map :
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beg = _inputhandler._map[key]['beg']
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end = _inputhandler._map[key]['end']
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values = _inputhandler._map[key]['values'].tolist()
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_map[key] = {"beg":beg,"end":end,"values":np.array(values).astype(str).tolist()}
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info = {"rows":_matrix.shape[0],"cols":_matrix.shape[1],"map":_map}
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print()
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# print ([_args['context'],_inputhandler._io])
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logger.write({"module":"gan-train","action":"data-prep","context":_args['context'],"input":_inputhandler._io})
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args['logs'] = _args['logs'] if 'logs' in _args else 'logs'
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args ['max_epochs'] = _args['max_epochs']
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args['matrix_size'] = _matrix.shape[0]
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args['batch_size'] = 2000
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if 'partition' in _args :
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args['partition'] = _args['partition']
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if 'gpu' in _args :
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args['gpu'] = _args['gpu']
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# os.environ['CUDA_VISIBLE_DEVICES'] = str(args['gpu']) if 'gpu' in args else '0'
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trainer = gan.Train(**args)
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#
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# @TODO: Write the map.json in the output directory for the logs
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#
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# f = open(os.sep.join([_args['logs'],'output',_args['context'],'map.json']),'w')
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f = open(os.sep.join([trainer.out_dir,'map.json']),'w')
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f.write(json.dumps(_map))
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f.close()
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trainer.apply()
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pass
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def get(**args):
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"""
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This function will restore a checkpoint from a persistant storage on to disk
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"""
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pass
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def generate(**_args):
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"""
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This function will generate a set of records, before we must load the parameters needed
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:param data
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:param context
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:param logs
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"""
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_args['logs'] = _args['logs'] if 'logs' in _args else 'logs'
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partition = _args['partition'] if 'partition' in _args else None
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if not partition :
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MAP_FOLDER = os.sep.join([_args['logs'],'output',_args['context']])
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# f = open(os.sep.join([_args['logs'],'output',_args['context'],'map.json']))
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else:
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MAP_FOLDER = os.sep.join([_args['logs'],'output',_args['context'],str(partition)])
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# f = open(os.sep.join([_args['logs'],'output',_args['context'],str(partition),'map.json']))
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f = open(os.sep.join([MAP_FOLDER,'map.json']))
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_map = json.loads(f.read())
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f.close()
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#
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#
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# if 'file' in _args :
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# df = pd.read_csv(_args['file'])
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# else:
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# df = _args['data'] if not isinstance(_args['data'],str) else pd.read_csv(_args['data'])
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args = {"context":_args['context'],"max_epochs":_args['max_epochs'],"candidates":_args['candidates']}
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args['logs'] = _args['logs'] if 'logs' in _args else 'logs'
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args ['max_epochs'] = _args['max_epochs']
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# args['matrix_size'] = _matrix.shape[0]
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args['batch_size'] = 2000
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args['partition'] = 0 if 'partition' not in _args else _args['partition']
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args['row_count'] = _args['data'].shape[0]
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#
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# @TODO: perhaps get the space of values here ... (not sure it's a good idea)
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#
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_args['map'] = _map
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_inputhandler = prepare.Input(**_args)
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values,_matrix = _inputhandler.convert()
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args['values'] = np.array(values)
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if 'gpu' in _args :
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args['gpu'] = _args['gpu']
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handler = gan.Predict (**args)
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lparams = {'columns':None}
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if partition :
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lparams['partition'] = partition
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handler.load_meta(**lparams)
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#
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# Let us now format the matrices by reverting them to a data-frame with values
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#
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candidates = handler.apply(candidates=args['candidates'])
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return [_inputhandler.revert(matrix=_matrix) for _matrix in candidates]
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