l2l/DNN_final.py

from Tools import getMMScoreType,WeightAndMatrix
from sklearn.metrics import roc_auc_score
from sklearn.model_selection import KFold,StratifiedKFold
from keras import metrics
from keras.models import Model
import numpy as np
from keras import backend as K
from keras import optimizers
from keras.models import Sequential,load_model
from keras.layers import Dense, Dropout
from keras.callbacks import EarlyStopping,ModelCheckpoint
def final_dnn():
    length = 30
    nfold = 10
    f1 = open(r"POS.txt", "r")
    f2 = open(r"NEG.txt", "r")
    pos = set()
    neg = set()
    for line in f1.readlines():
        sp = line.strip().split("\t")
        pep = sp[0]
        site = sp[1] + "\t" + sp[2]
        pos.add(pep)
    for line in f2.readlines():
        sp = line.strip().split("\t")
        pep = sp[0]
        if pep not in pos:
            neg.add(pep)

    fw = open(r"AUCs.txt", "a")
    AAscores, l_aas, weight_coef, AAs = \
        WeightAndMatrix(r"traningout_best.txt")
    l_scores, l_type, peps = getMMScoreType(pos, neg, AAscores, weight_coef, l_aas, AAs, length)
    raw_scores = []
    for i in range(len(l_scores)):
        total = 0.0
        for j in range(len(l_scores[i])):
            total += l_scores[i][j]
        raw_scores.append(total)
    X = np.array(l_scores)
    Y = np.array(l_type)
    PEP = np.array(peps)
    parameter = [512, 0.2, 2, X.shape[1]]
    auc_all,best_model = dnn(X,Y,nfold,parameter,PEP)
    fw.write("Best AUC:" + "\t" + str(auc_all) + "\t" + str(best_model) + "\n")
    fw.flush()
    fw.close()



def dnn(X,Y,nfold,parameter,PEP):
    skf = StratifiedKFold(n_splits=nfold)
    num = 0
    best_auc = 0.0
    best_model = 0
    Y_last = []
    Score_last = []
    for train_index, test_index in skf.split(X, Y):
        num += 1
        print("dnn_" + str(num))
        X_train, X_test = X[train_index], X[test_index]
        Y_train, Y_test = Y[train_index], Y[test_index]
        model = create_model(parameter)
        model.fit(X_train, Y_train, epochs=300, batch_size=100,validation_data=(X_test,Y_test),verbose=1,
                  callbacks=[EarlyStopping(monitor="val_auc", mode="max", min_delta=0, patience=30),
                             ModelCheckpoint(str(num) +'.model', monitor="val_auc", mode="max", save_best_only=True)])
        model = load_model(str(num) +".model")
        predict_x = model.predict(X_test)[:, 0]
        auc = roc_auc_score(Y_test, predict_x)
        if auc > best_auc:
            best_auc = auc
            best_model = num
        Y_last.extend(Y_test)
        Score_last.extend(predict_x)
        K.clear_session()
    auc_all = roc_auc_score(np.array(Y_last), np.array(Score_last))
    return auc_all,best_model


def create_model(parameter):
    model = Sequential()
    model.add(Dense(parameter[0], activation='linear', input_dim=parameter[3]))
    model.add(Dropout(parameter[1]))
    for i in range(parameter[2]):
        fold = 2 ** (i+1)
        model.add(Dense(parameter[0]/ fold,activation='linear'))
        model.add(Dropout(parameter[1]))
    model.add(Dense(1, activation='sigmoid'))
    model.compile(optimizer=optimizers.Adam(lr=1e-3,decay=3e-5), loss='binary_crossentropy', metrics=[metrics.AUC(name="auc")])
    model.summary()

    return model

final_dnn()