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@ -24,24 +24,25 @@ class ContinuousToDiscrete :
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# BOUNDS = np.repeat(np.divide(X.max(),n),n).cumsum().tolist()
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# print ( X.values.astype(np.float32))
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# print ("___________________________")
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values = X.values.astype(np.float32)
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values = np.array(X).astype(np.float32)
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BOUNDS = ContinuousToDiscrete.bounds(values,n)
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# _map = [{"index":BOUNDS.index(i),"ubound":i} for i in BOUNDS]
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_matrix = []
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m = []
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for value in X :
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x_ = np.zeros(n)
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_matrix.append(x_)
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for row in BOUNDS :
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if value>= row.left and value <= row.right :
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index = BOUNDS.index(row)
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x_[index] = 1
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break
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_matrix += x_.tolist()
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#
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# for items in BOUNDS :
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# index = BOUNDS.index(items)
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return np.array(_matrix)
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return np.array(_matrix).reshape(len(X),n)
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@staticmethod
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def bounds(x,n):
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@ -92,7 +93,7 @@ def train (**args) :
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:context label of what we are synthesizing
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"""
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column = args['column'] if (isinstance(args['column'],list)) else [args['column']]
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CONTINUOUS = args['continuous'] if 'continuous' in args else []
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# CONTINUOUS = args['continuous'] if 'continuous' in args else []
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# column_id = args['id']
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df = args['data'] if not isinstance(args['data'],str) else pd.read_csv(args['data'])
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df.columns = [name.lower() for name in df.columns]
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@ -109,15 +110,16 @@ def train (**args) :
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# args['real'] = pd.get_dummies(df[col].fillna('')).astype(np.float32).values
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# if 'float' not in df[col].dtypes.name :
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# args['real'] = pd.get_dummies(df[col].fillna('')).astype(np.float32).values
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if col in CONTINUOUS:
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BIN_SIZE = 4 if 'bin_size' not in args else int(args['bin_size'])
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args['real'] = ContinuousToDiscrete.binary(df[col],BIN_SIZE).astype(np.float32)
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# print ( pd.DataFrame(args['real']).head() )
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else:
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# if col in CONTINUOUS:
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# BIN_SIZE = 4 if 'bin_size' not in args else int(args['bin_size'])
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# args['real'] = ContinuousToDiscrete.binary(df[col],BIN_SIZE).astype(np.float32)
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# # args['real'] = args['real'].reshape(df.shape[0],BIN_SIZE)
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# else:
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# df.to_csv('tmp-'+args['logs'].replace('/','_')+'-'+col+'.csv',index=False)
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# print (df[col].dtypes)
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# print (df[col].dropna/(axis=1).unique())
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args['real'] = pd.get_dummies(df[col].dropna()).astype(np.float32).values
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args['real'] = pd.get_dummies(df[col].dropna()).astype(np.float32).values
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@ -170,6 +172,7 @@ def generate(**args):
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#@TODO:
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# If the identifier is not present, we should fine a way to determine or make one
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#
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BIN_SIZE = 4 if 'bin_size' not in args else int(args['bin_size'])
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_df = df.copy()
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for col in column :
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args['context'] = col
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@ -181,10 +184,15 @@ def generate(**args):
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# BIN_SIZE = 4 if 'bin_size' not in args else int(args['bin_size'])
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# values = ContinuousToDiscrete.continuous(df[col].values,BIN_SIZE)
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# # values = np.unique(values).tolist()
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# else:
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# if col in CONTINUOUS :
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# values = ContinuousToDiscrete.binary(df[col],BIN_SIZE).astype(np.float32).T
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# else:
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values = df[col].dropna().unique().tolist()
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args['values'] = values
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args['row_count'] = df.shape[0]
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#
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@ -192,10 +200,9 @@ def generate(**args):
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handler = gan.Predict (**args)
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handler.load_meta(col)
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r = handler.apply()
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BIN_SIZE = 4 if 'bin_size' not in args else int(args['bin_size'])
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# _df[col] = ContinuousToDiscrete.continuous(r[col],BIN_SIZE) if col in CONTINUOUS else r[col]
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_df[col] = r[col]
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_df[col] = ContinuousToDiscrete.continuous(r[col],BIN_SIZE) if col in CONTINUOUS else r[col]
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# _df[col] = r[col]
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#
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# @TODO: log basic stats about the synthetic attribute
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#
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