import os
import torch
import json
import random
import pandas as pd
import numpy as np
def calc_stat(numbers):
mu = sum(numbers) / len(numbers)
sigma = (sum([(x - mu) ** 2 for x in numbers]) / len(numbers)) ** 0.5
return mu, sigma
def conf_inv(mu, sigma, n):
delta = 2.776 * sigma / (n ** 0.5) # 95%
return mu - delta, mu + delta
def arg_min(lst):
m = float('inf')
idx = 0
for i, v in enumerate(lst):
if v < m:
m = v
idx = i
return m, idx
def save_best_model(state_dict, model_dir: str, best_epoch: int, keep: int):
save_to = os.path.join(model_dir, '{}.pkl'.format(best_epoch))
torch.save(state_dict, save_to)
model_files = [f for f in os.listdir(model_dir) if os.path.splitext(f)[-1] == '.pkl']
epochs = [int(os.path.splitext(f)[0]) for f in model_files if str.isdigit(f[0])]
outdated = sorted(epochs, reverse=True)[keep:]
for n in outdated:
os.remove(os.path.join(model_dir, '{}.pkl'.format(n)))
def find_best_model(model_dir: str):
model_files = [f for f in os.listdir(model_dir) if os.path.splitext(f)[-1] == '.pkl']
epochs = [int(os.path.splitext(f)[0]) for f in model_files if str.isdigit(f[0])]
best_epoch = max(epochs)
return os.path.join(model_dir, '{}.pkl'.format(best_epoch))
def save_args(args, save_to: str):
args_dict = args.__dict__
with open(save_to, 'w') as f:
json.dump(args_dict, f, indent=2)
def read_map(map_file, keep_str = False):
d = {}
print(map_file)
with open(map_file, 'r') as f:
f.readline()
for line in f:
k, v = line.rstrip().split()
if keep_str:
d[k] = v
else:
d[k] = int(v)
return d
def random_split_indices(n_samples, train_rate: float = None, test_rate: float = None):
if train_rate is not None and (train_rate < 0 or train_rate > 1):
raise ValueError("train rate should be in [0, 1], found {}".format(train_rate))
elif test_rate is not None:
if test_rate < 0 or test_rate > 1:
raise ValueError("test rate should be in [0, 1], found {}".format(test_rate))
train_rate = 1 - test_rate
elif train_rate is None and test_rate is None:
raise ValueError("Either train_rate or test_rate should be given.")
evidence = list(range(n_samples))
train_size = int(len(evidence) * train_rate)
random.shuffle(evidence)
train_indices = evidence[:train_size]
test_indices = evidence[train_size:]
return train_indices, test_indices
# --------------------------------------------------------------------- Our Part:
def get_index_by_name(drug_name):
project_path = os.path.dirname(os.path.abspath(os.path.join(os.path.dirname( __file__ ), '..')))
drugname2drugbankid_file = os.path.join(project_path, 'drug/data/drugname2drugbankid.tsv')
drug_name2drugbank_id_df = pd.read_csv(drugname2drugbankid_file, sep='\s+')
drug_bank_id = drug_name2drugbank_id_df[drug_name2drugbank_id_df['drug_name'] == drug_name].drug_bank_id.item()
negative_index = list(drug_name2drugbank_id_df['drug_name']).index(drug_name)
drug2id_file = os.path.join(project_path, 'drug/data/DDI/DrugBank/raw/', 'drug2id.tsv')
drug2id_df = pd.read_csv(drug2id_file , sep='\t')
row = drug2id_df[drug2id_df['DrugBank_id'] == drug_bank_id]
if row.empty:
drug_index = - negative_index
else:
drug_index = row.node_index.item()
return drug_index
def get_FP_by_negative_index(index):
index = index.item()
project_path = os.path.dirname(os.path.abspath(os.path.join(os.path.dirname(__file__), '..')))
drug2FP_file = os.path.join(project_path, 'drug/data/drug2FP_synergy.csv')
drug2FP_df = pd.read_csv(drug2FP_file)
array = np.array(list(drug2FP_df.iloc[-index])[1:])
return torch.tensor(array, dtype=torch.float32)