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	# -- coding: utf-8 --
	'''
	saved_models文件夹包含两个文件：
	1).在原有bert-base-chinese基础上fine-tune的pytorch_model.bin
	2).配置文件config.json，和原有bert-base-chinese的配置文件一样
	'''

	import sys
	sys.path.append(r'../修改后/4-5.Bert-seq2seq/')
	import torch
	import torch.nn.functional as F
	import numpy as np
	from model import BertForSeq2Seq
	from tokenizer import Tokenizer

	def top_k_top_p_filtering(logits, top_k=0, top_p=0.0, filter_value=-float('Inf')):
	""" Filter a distribution of logits using top-k and/or nucleus (top-p) filtering
	Args:
	logits: logits distribution shape (vocabulary size)
	top_k > 0: keep only top k tokens with highest probability (top-k filtering).
	top_p > 0.0: keep the top tokens with cumulative probability >= top_p (nucleus filtering).
	Nucleus filtering is described in Holtzman et al. (http://arxiv.org/abs/1904.09751)
	From: https://gist.github.com/thomwolf/1a5a29f6962089e871b94cbd09daf317
	"""
	assert logits.dim() == 1 # batch size 1 for now - could be updated for more but the code would be less clear
	top_k = min(top_k, logits.size(-1)) # Safety check
	if top_k > 0:
	# Remove all tokens with a probability less than the last token of the top-k
	indices_to_remove = logits < torch.topk(logits, top_k)[0][..., -1, None]
	logits[indices_to_remove] = filter_value

	if top_p > 0.0:
	sorted_logits, sorted_indices = torch.sort(logits, descending=True)
	cumulative_probs = torch.cumsum(F.softmax(sorted_logits, dim=-1), dim=-1)

	# Remove tokens with cumulative probability above the threshold
	sorted_indices_to_remove = cumulative_probs > top_p
	# Shift the indices to the right to keep also the first token above the threshold
	sorted_indices_to_remove[..., 1:] = sorted_indices_to_remove[..., :-1].clone()
	sorted_indices_to_remove[..., 0] = 0

	indices_to_remove = sorted_indices[sorted_indices_to_remove]
	logits[indices_to_remove] = filter_value
	return logits

	def sample_generate(text, model_path, out_max_length=40, top_k=30, top_p=0.0, max_length=512):
	device = "cuda" if torch.cuda.is_available() else 'cpu'

	model = BertForSeq2Seq.from_pretrained(model_path)
	model.to(device)
	model.eval()

	input_max_length = max_length - out_max_length
	input_ids, token_type_ids, token_type_ids_for_mask, labels = Tokenizer.encode(text, max_length=input_max_length)

	input_ids = torch.tensor(input_ids, device=device, dtype=torch.long).view(1, -1)
	token_type_ids = torch.tensor(token_type_ids, device=device, dtype=torch.long).view(1, -1)
	token_type_ids_for_mask = torch.tensor(token_type_ids_for_mask, device=device, dtype=torch.long).view(1, -1)
	#print(input_ids, token_type_ids, token_type_ids_for_mask)
	output_ids = []

	with torch.no_grad():
	for step in range(out_max_length):
	scores = model(input_ids, token_type_ids, token_type_ids_for_mask)
	logit_score = torch.log_softmax(scores[:, -1], dim=-1).squeeze(0)
	logit_score[Tokenizer.unk_id] = -float('Inf')

	# 对于已生成的结果generated中的每个token添加一个重复惩罚项，降低其生成概率
	for id_ in set(output_ids):
	logit_score[id_] /= 1.5

	filtered_logits = top_k_top_p_filtering(logit_score, top_k=top_k, top_p=top_p)
	next_token = torch.multinomial(F.softmax(filtered_logits, dim=-1), num_samples=1)
	if Tokenizer.sep_id == next_token.item():
	break
	output_ids.append(next_token.item())
	input_ids = torch.cat((input_ids, next_token.long().unsqueeze(0)), dim=1)
	token_type_ids = torch.cat([token_type_ids, torch.ones((1, 1), device=device, dtype=torch.long)], dim=1)
	token_type_ids_for_mask = torch.cat([token_type_ids_for_mask, torch.zeros((1, 1), device=device, dtype=torch.long)], dim=1)
	#print(input_ids, token_type_ids, token_type_ids_for_mask)


	return Tokenizer.decode(np.array(output_ids))

	import gradio as gr
	def greet(a):
	summary = sample_generate(text=a,model_path='/hy-tmp/4-5.Bert-seq2seq/saved_models',top_k=5,top_p=0.95)
	return summary
	demo=gr.Interface(fn=greet,inputs="text",outputs="text")
	demo.launch(share=True)