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ragflow / rag /nlp /term_weight.py

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	#
	# Copyright 2024 The InfiniFlow Authors. All Rights Reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	import math
	import json
	import re
	import os
	import numpy as np
	from rag.nlp import rag_tokenizer
	from api.utils.file_utils import get_project_base_directory


	class Dealer:
	def __init__(self):
	self.stop_words = set(["请问",
	"您",
	"你",
	"我",
	"他",
	"是",
	"的",
	"就",
	"有",
	"于",
	"及",
	"即",
	"在",
	"为",
	"最",
	"有",
	"从",
	"以",
	"了",
	"将",
	"与",
	"吗",
	"吧",
	"中",
	"#",
	"什么",
	"怎么",
	"哪个",
	"哪些",
	"啥",
	"相关"])

	def load_dict(fnm):
	res = {}
	f = open(fnm, "r")
	while True:
	l = f.readline()
	if not l:
	break
	arr = l.replace("\n", "").split("\t")
	if len(arr) < 2:
	res[arr[0]] = 0
	else:
	res[arr[0]] = int(arr[1])

	c = 0
	for _, v in res.items():
	c += v
	if c == 0:
	return set(res.keys())
	return res

	fnm = os.path.join(get_project_base_directory(), "rag/res")
	self.ne, self.df = {}, {}
	try:
	self.ne = json.load(open(os.path.join(fnm, "ner.json"), "r"))
	except Exception as e:
	print("[WARNING] Load ner.json FAIL!")
	try:
	self.df = load_dict(os.path.join(fnm, "term.freq"))
	except Exception as e:
	print("[WARNING] Load term.freq FAIL!")

	def pretoken(self, txt, num=False, stpwd=True):
	patt = [
	r"[~—\t @#%!<>,\.\?\":;'\{\}\[\]_=\\|，。？》•●○↓《；‘’：“”【¥ 】…￥！、·（）×`&\\/「」\\]"
	]
	rewt = [
	]
	for p, r in rewt:
	txt = re.sub(p, r, txt)

	res = []
	for t in rag_tokenizer.tokenize(txt).split(" "):
	tk = t
	if (stpwd and tk in self.stop_words) or (
	re.match(r"[0-9]$", tk) and not num):
	continue
	for p in patt:
	if re.match(p, t):
	tk = "#"
	break
	#tk = re.sub(r"([\+\\-])", r"\\\1", tk)
	if tk != "#" and tk:
	res.append(tk)
	return res

	def tokenMerge(self, tks):
	def oneTerm(t): return len(t) == 1 or re.match(r"[0-9a-z]{1,2}$", t)

	res, i = [], 0
	while i < len(tks):
	j = i
	if i == 0 and oneTerm(tks[i]) and len(
	tks) > 1 and (len(tks[i + 1]) > 1 and not re.match(r"[0-9a-zA-Z]", tks[i + 1])): # 多工位
	res.append(" ".join(tks[0:2]))
	i = 2
	continue

	while j < len(
	tks) and tks[j] and tks[j] not in self.stop_words and oneTerm(tks[j]):
	j += 1
	if j - i > 1:
	if j - i < 5:
	res.append(" ".join(tks[i:j]))
	i = j
	else:
	res.append(" ".join(tks[i:i + 2]))
	i = i + 2
	else:
	if len(tks[i]) > 0:
	res.append(tks[i])
	i += 1
	return [t for t in res if t]

	def ner(self, t):
	if not self.ne:
	return ""
	res = self.ne.get(t, "")
	if res:
	return res

	def split(self, txt):
	tks = []
	for t in re.sub(r"[ \t]+", " ", txt).split(" "):
	if tks and re.match(r".*[a-zA-Z]$", tks[-1]) and \
	re.match(r".*[a-zA-Z]$", t) and tks and \
	self.ne.get(t, "") != "func" and self.ne.get(tks[-1], "") != "func":
	tks[-1] = tks[-1] + " " + t
	else:
	tks.append(t)
	return tks

	def weights(self, tks):
	def skill(t):
	if t not in self.sk:
	return 1
	return 6

	def ner(t):
	if re.match(r"[0-9,.]{2,}$", t):
	return 2
	if re.match(r"[a-z]{1,2}$", t):
	return 0.01
	if not self.ne or t not in self.ne:
	return 1
	m = {"toxic": 2, "func": 1, "corp": 3, "loca": 3, "sch": 3, "stock": 3,
	"firstnm": 1}
	return m[self.ne[t]]

	def postag(t):
	t = rag_tokenizer.tag(t)
	if t in set(["r", "c", "d"]):
	return 0.3
	if t in set(["ns", "nt"]):
	return 3
	if t in set(["n"]):
	return 2
	if re.match(r"[0-9-]+", t):
	return 2
	return 1

	def freq(t):
	if re.match(r"[0-9. -]{2,}$", t):
	return 3
	s = rag_tokenizer.freq(t)
	if not s and re.match(r"[a-z. -]+$", t):
	return 300
	if not s:
	s = 0

	if not s and len(t) >= 4:
	s = [tt for tt in rag_tokenizer.fine_grained_tokenize(t).split(" ") if len(tt) > 1]
	if len(s) > 1:
	s = np.min([freq(tt) for tt in s]) / 6.
	else:
	s = 0

	return max(s, 10)

	def df(t):
	if re.match(r"[0-9. -]{2,}$", t):
	return 5
	if t in self.df:
	return self.df[t] + 3
	elif re.match(r"[a-z. -]+$", t):
	return 300
	elif len(t) >= 4:
	s = [tt for tt in rag_tokenizer.fine_grained_tokenize(t).split(" ") if len(tt) > 1]
	if len(s) > 1:
	return max(3, np.min([df(tt) for tt in s]) / 6.)

	return 3

	def idf(s, N): return math.log10(10 + ((N - s + 0.5) / (s + 0.5)))

	tw = []
	for tk in tks:
	tt = self.tokenMerge(self.pretoken(tk, True))
	idf1 = np.array([idf(freq(t), 10000000) for t in tt])
	idf2 = np.array([idf(df(t), 1000000000) for t in tt])
	wts = (0.3 * idf1 + 0.7 * idf2) * \
	np.array([ner(t) * postag(t) for t in tt])

	tw.extend(zip(tt, wts))

	S = np.sum([s for _, s in tw])
	return [(t, s / S) for t, s in tw]