forked from moreo/QuaPy
75 lines
2.5 KiB
Python
75 lines
2.5 KiB
Python
from sklearn.linear_model import LogisticRegression
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from time import time
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import pandas as pd
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from tqdm import tqdm
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import quapy as qp
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from quapy.protocol import APP
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from quapy.method.aggregative import HDy
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from quapy.method.non_aggregative import DMx
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"""
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This example is meant to experimentally compare HDy and HDx.
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The implementations of these methods adhere to the original design of the methods; in particular, this means that
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the number of bins is not an hyperparameter, but is something that the method explores internally (returning the
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median of the estimates as the final prevalence prediction), and the prevalence is not searched through any
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numerical optimization procedure, but simply as a linear search between 0 and 1 steppy by 0.01.
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See <https://www.sciencedirect.com/science/article/pii/S0020025512004069>`_ for further details
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"""
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qp.environ['SAMPLE_SIZE']=100
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df = pd.DataFrame(columns=['method', 'dataset', 'MAE', 'MRAE', 'tr-time', 'te-time'])
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for dataset_name in tqdm(qp.datasets.UCI_BINARY_DATASETS, total=len(qp.datasets.UCI_BINARY_DATASETS)):
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if dataset_name in ['acute.a', 'acute.b', 'balance.2', 'iris.1']: continue
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collection = qp.datasets.fetch_UCIBinaryLabelledCollection(dataset_name, verbose=False)
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train, test = collection.split_stratified()
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# HDy............................................
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tinit = time()
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hdy = HDy(LogisticRegression()).fit(train)
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t_hdy_train = time()-tinit
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tinit = time()
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hdy_report = qp.evaluation.evaluation_report(hdy, APP(test), error_metrics=['mae', 'mrae']).mean()
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t_hdy_test = time() - tinit
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df.loc[len(df)] = ['HDy', dataset_name, hdy_report['mae'], hdy_report['mrae'], t_hdy_train, t_hdy_test]
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# HDx............................................
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tinit = time()
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hdx = DMx.HDx(n_jobs=-1).fit(train)
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t_hdx_train = time() - tinit
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tinit = time()
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hdx_report = qp.evaluation.evaluation_report(hdx, APP(test), error_metrics=['mae', 'mrae']).mean()
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t_hdx_test = time() - tinit
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df.loc[len(df)] = ['HDx', dataset_name, hdx_report['mae'], hdx_report['mrae'], t_hdx_train, t_hdx_test]
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# evaluation reports
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print('\n'*3)
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print('='*80)
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print('Comparison in terms of performance')
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print('='*80)
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pv = df.pivot_table(index='dataset', columns='method', values=['MAE', 'MRAE'])
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print(pv)
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print('\nAveraged values:')
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print(pv.mean())
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print('\n'*3)
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print('='*80)
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print('Comparison in terms of efficiency')
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print('='*80)
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pv = df.pivot_table(index='dataset', columns='method', values=['tr-time', 'te-time'])
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print(pv)
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print('\nAveraged values:')
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print(pv.mean())
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