# -*- coding: utf-8 -*-
"""
@Time : 2022/8/15 15:20
@Author :
@FileName:
@Software:
@Describe:
"""
import json
import numpy as np
import pandas as pd
from tqdm import tqdm
from bert4keras.backend import keras, K
from bert4keras.layers import Loss
from bert4keras.models import build_transformer_model
from bert4keras.tokenizers import SpTokenizer
from bert4keras.optimizers import Adam
from bert4keras.snippets import sequence_padding, open
from bert4keras.snippets import DataGenerator, AutoRegressiveDecoder
from keras.models import Model
from rouge import Rouge # pip install rouge
from nltk.translate.bleu_score import sentence_bleu, SmoothingFunction
class Evaluator(keras.callbacks.Callback):
"""评估与保存
"""
def __init__(self):
self.rouge = Rouge()
self.smooth = SmoothingFunction().method1
self.best_bleu = 0.
# def on_epoch_end(self, epoch, logs=None):
# metrics = self.evaluate(valid_data) # 评测模型
# if metrics['bleu'] > self.best_bleu:
# self.best_bleu = metrics['bleu']
# model.save_weights('./best_model.weights') # 保存模型
# metrics['best_bleu'] = self.best_bleu
# print('valid_data:', metrics)
def evaluate(self, data, topk=1):
total = 0
rouge_1, rouge_2, rouge_l, bleu = 0, 0, 0, 0
for title, content in tqdm(data):
total += 1
title = ' '.join(title).lower()
pred_title = ' '.join(autotitle.generate(content,
topk=topk)).lower()
if pred_title.strip():
scores = self.rouge.get_scores(hyps=pred_title, refs=title)
rouge_1 += scores[0]['rouge-1']['f']
rouge_2 += scores[0]['rouge-2']['f']
rouge_l += scores[0]['rouge-l']['f']
bleu += sentence_bleu(
references=[title.split(' ')],
hypothesis=pred_title.split(' '),
smoothing_function=self.smooth
)
rouge_1 /= total
rouge_2 /= total
rouge_l /= total
bleu /= total
return {
'rouge-1': rouge_1,
'rouge-2': rouge_2,
'rouge-l': rouge_l,
'bleu': bleu,
}
def evaluate_t(self, data_1, data_2, topk=1):
total = 0
rouge_1, rouge_2, rouge_l, bleu = 0, 0, 0, 0
scores = self.rouge.get_scores(hyps=[data_1], refs=[data_2])
rouge_1 += scores[0]['rouge-1']['f']
rouge_2 += scores[0]['rouge-2']['f']
rouge_l += scores[0]['rouge-l']['f']
bleu += sentence_bleu(
references=[data_1.split(' ')],
hypothesis=data_2.split(' '),
smoothing_function=self.smooth
)
# rouge_1 /= total
# rouge_2 /= total
# rouge_l /= total
# bleu /= total
return [rouge_1, rouge_2, rouge_l, bleu]
eval_class = Evaluator()
# print(eval_class.evaluate_t("星 辰 的 话","星 辰 的 话 :"))
path = "data/700条效果对比.xlsx"
path_out = "data/700条效果对比测评结果_5.csv"
data = pd.read_excel(path).values.tolist()
list_class = [0 for i in range(7)]
# print(list_class)
data_new = {"rouge_1": list_class.copy(),
"rouge_2": list_class.copy(),
"rouge_l": list_class.copy(),
"bleu": list_class.copy()}
total = len(data)
print(len(data))
for i in data:
dan_list = [i[1], i[2], i[3], i[4], i[5], i[6]]
for j in range(len(dan_list)):
eval_list = eval_class.evaluate_t(' '.join(dan_list[j]), ' '.join(i[-1]))
data_new["rouge_1"][j] += eval_list[0]
data_new["rouge_2"][j] += eval_list[1]
data_new["rouge_l"][j] += eval_list[2]
data_new["bleu"][j] += eval_list[3]
'''
生成文本(t5_未修正数据) 生成文本(unilm未修正数据) 生成文本(unilm修正数据) 生成文本(unilm修正数据_预训练) 生成文本(240w/24H) 生成文本(240W/48H) 生成文本(240W/24H/修) 生成文本(全部数据/72H/修) 生成文本(全部数据/72H/未修) 生成文本(t5修正数据) 生成文本(t5修正数据_190epoch)
'''
pd.DataFrame(data_new,
index=["simbert_5day", "simsim模型", "sim_attention_dropout04_模型", "t5", "t5_dropout", "小说模型", "yy"]).to_csv(
path_out)