OpenI
/
graphkit-learn

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Tue Jan  8 17:47:22 2019

@author: ljia
"""

import sys
import numpy as np
import networkx as nx

sys.path.insert(0, "../../")
from gklearn.utils.graphfiles import loadDataset
from gklearn.utils.model_selection_precomputed import compute_gram_matrices
from sklearn.model_selection import ParameterGrid

from libs import *
import multiprocessing

dslist = [
    {'name': 'ENZYMES', 'dataset': '../../datasets/ENZYMES_txt/ENZYMES_A_sparse.txt'},
    # node symb/nsymb
]

def run_ms(dataset, y, ds):
    from gklearn.kernels.untilHPathKernel import untilhpathkernel
    estimator = untilhpathkernel
    param_grid_precomputed = {'depth': np.linspace(1, 10, 10),   # [2], 
                              'k_func': ['MinMax', 'tanimoto'],
                              'compute_method': ['trie']} # ['MinMax']}
    param_grid = [{'C': np.logspace(-10, 10, num=41, base=10)},
                  {'alpha': np.logspace(-10, 10, num=41, base=10)}]

    _, gram_matrix_time, _, _, _ = compute_gram_matrices(
                dataset, y, estimator, list(ParameterGrid(param_grid_precomputed)),
                '../../notebooks/results/' + estimator.__name__, ds['name'],
                n_jobs=multiprocessing.cpu_count(), verbose=False)
    average_gram_matrix_time = np.mean(gram_matrix_time)
    std_gram_matrix_time = np.std(gram_matrix_time, ddof=1)
    print('\n***** time to calculate gram matrix with different hyper-params: {:.2f}±{:.2f}s'
          .format(average_gram_matrix_time, std_gram_matrix_time))
    print()
    return average_gram_matrix_time, std_gram_matrix_time


for ds in dslist:
    print()
    print(ds['name'])
    Gn, y_all = loadDataset(
        ds['dataset'], filename_y=(ds['dataset_y'] if 'dataset_y' in ds else None),
        extra_params=(ds['extra_params'] if 'extra_params' in ds else None))
    degree_list = [np.mean(list(dict(g.degree()).values())) for g in Gn]
    idx_sorted = np.argsort(degree_list)
    degree_list.sort()
    Gn = [Gn[idx] for idx in idx_sorted]
    y_all = [y_all[idx] for idx in idx_sorted]
    len_1piece = int(len(Gn) / 5)
    ave_time = []
    std_time = []
    ave_degree = []
    for piece in range(0, 5):
        print('piece', str(piece), ':')
        Gn_p = Gn[len_1piece * piece:len_1piece * (piece + 1)]
        y_all_p = y_all[len_1piece * piece:len_1piece * (piece + 1)]
        aved = np.mean(degree_list[len_1piece * piece:len_1piece * (piece + 1)])
        ave_degree.append(aved)
        avet, stdt = run_ms(Gn_p, y_all_p, ds)
        ave_time.append(avet)
        std_time.append(stdt)
        
        print('\n****** for dataset', ds['name'], ', the average time is \n', ave_time,
              '\nthe time std is \n', std_time)
        print('corresponding average vertex degrees are', ave_degree)
    print()