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ragflow / deepdoc /vision /table_structure_recognizer.py

KevinHuSh

solve task execution issues (#90)

bcb7249 12 months ago

22.6 kB

	# 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 logging
	import os
	import re
	from collections import Counter

	import numpy as np

	from api.utils.file_utils import get_project_base_directory
	from rag.nlp import huqie
	from .recognizer import Recognizer


	class TableStructureRecognizer(Recognizer):
	labels = [
	"table",
	"table column",
	"table row",
	"table column header",
	"table projected row header",
	"table spanning cell",
	]

	def __init__(self):
	super().__init__(self.labels, "tsr",os.path.join(get_project_base_directory(), "rag/res/deepdoc/"))

	def __call__(self, images, thr=0.2):
	tbls = super().__call__(images, thr)
	res = []
	# align left&right for rows, align top&bottom for columns
	for tbl in tbls:
	lts = [{"label": b["type"],
	"score": b["score"],
	"x0": b["bbox"][0], "x1": b["bbox"][2],
	"top": b["bbox"][1], "bottom": b["bbox"][-1]
	} for b in tbl]
	if not lts:
	continue

	left = [b["x0"] for b in lts if b["label"].find(
	"row") > 0 or b["label"].find("header") > 0]
	right = [b["x1"] for b in lts if b["label"].find(
	"row") > 0 or b["label"].find("header") > 0]
	if not left:
	continue
	left = np.mean(left) if len(left) > 4 else np.min(left)
	right = np.mean(right) if len(right) > 4 else np.max(right)
	for b in lts:
	if b["label"].find("row") > 0 or b["label"].find("header") > 0:
	if b["x0"] > left:
	b["x0"] = left
	if b["x1"] < right:
	b["x1"] = right

	top = [b["top"] for b in lts if b["label"] == "table column"]
	bottom = [b["bottom"] for b in lts if b["label"] == "table column"]
	if not top:
	res.append(lts)
	continue
	top = np.median(top) if len(top) > 4 else np.min(top)
	bottom = np.median(bottom) if len(bottom) > 4 else np.max(bottom)
	for b in lts:
	if b["label"] == "table column":
	if b["top"] > top:
	b["top"] = top
	if b["bottom"] < bottom:
	b["bottom"] = bottom

	res.append(lts)
	return res

	@staticmethod
	def is_caption(bx):
	patt = [
	r"[图表]+[ 0-9:：]{2,}"
	]
	if any([re.match(p, bx["text"].strip()) for p in patt]) \
	or bx["layout_type"].find("caption") >= 0:
	return True
	return False

	@staticmethod
	def blockType(b):
	patt = [
	("^(20\|19)[0-9]{2}[年/-][0-9]{1,2}[月/-][0-9]{1,2}日*$", "Dt"),
	(r"^(20\|19)[0-9]{2}年$", "Dt"),
	(r"^(20\|19)[0-9]{2}[年-][0-9]{1,2}月*$", "Dt"),
	("^[0-9]{1,2}[月-][0-9]{1,2}日*$", "Dt"),
	(r"^第*[一二三四1-4]季度$", "Dt"),
	(r"^(20\|19)[0-9]{2}年*[一二三四1-4]季度$", "Dt"),
	(r"^(20\|19)[0-9]{2}[ABCDE]$", "Dt"),
	("^[0-9.,+%/ -]+$", "Nu"),
	(r"^[0-9A-Z/\._~-]+$", "Ca"),
	(r"^[A-Z]*[a-z' -]+$", "En"),
	(r"^[0-9.,+-]+[0-9A-Za-z/$￥%<>（）()' -]+$", "NE"),
	(r"^.{1}$", "Sg")
	]
	for p, n in patt:
	if re.search(p, b["text"].strip()):
	return n
	tks = [t for t in huqie.qie(b["text"]).split(" ") if len(t) > 1]
	if len(tks) > 3:
	if len(tks) < 12:
	return "Tx"
	else:
	return "Lx"

	if len(tks) == 1 and huqie.tag(tks[0]) == "nr":
	return "Nr"

	return "Ot"

	@staticmethod
	def construct_table(boxes, is_english=False, html=False):
	cap = ""
	i = 0
	while i < len(boxes):
	if TableStructureRecognizer.is_caption(boxes[i]):
	if is_english: cap + " "
	cap += boxes[i]["text"]
	boxes.pop(i)
	i -= 1
	i += 1

	if not boxes:
	return []
	for b in boxes:
	b["btype"] = TableStructureRecognizer.blockType(b)
	max_type = Counter([b["btype"] for b in boxes]).items()
	max_type = max(max_type, key=lambda x: x[1])[0] if max_type else ""
	logging.debug("MAXTYPE: " + max_type)

	rowh = [b["R_bott"] - b["R_top"] for b in boxes if "R" in b]
	rowh = np.min(rowh) if rowh else 0
	boxes = Recognizer.sort_R_firstly(boxes, rowh / 2)
	#for b in boxes:print(b)
	boxes[0]["rn"] = 0
	rows = [[boxes[0]]]
	btm = boxes[0]["bottom"]
	for b in boxes[1:]:
	b["rn"] = len(rows) - 1
	lst_r = rows[-1]
	if lst_r[-1].get("R", "") != b.get("R", "") \
	or (b["top"] >= btm - 3 and lst_r[-1].get("R", "-1") != b.get("R", "-2")
	): # new row
	btm = b["bottom"]
	b["rn"] += 1
	rows.append([b])
	continue
	btm = (btm + b["bottom"]) / 2.
	rows[-1].append(b)

	colwm = [b["C_right"] - b["C_left"] for b in boxes if "C" in b]
	colwm = np.min(colwm) if colwm else 0
	crosspage = len(set([b["page_number"] for b in boxes])) > 1
	if crosspage:
	boxes = Recognizer.sort_X_firstly(boxes, colwm / 2, False)
	else:
	boxes = Recognizer.sort_C_firstly(boxes, colwm / 2)
	boxes[0]["cn"] = 0
	cols = [[boxes[0]]]
	right = boxes[0]["x1"]
	for b in boxes[1:]:
	b["cn"] = len(cols) - 1
	lst_c = cols[-1]
	if (int(b.get("C", "1")) - int(lst_c[-1].get("C", "1")) == 1 and b["page_number"] == lst_c[-1][
	"page_number"]) \
	or (b["x0"] >= right and lst_c[-1].get("C", "-1") != b.get("C", "-2")): # new col
	right = b["x1"]
	b["cn"] += 1
	cols.append([b])
	continue
	right = (right + b["x1"]) / 2.
	cols[-1].append(b)

	tbl = [[[] for _ in range(len(cols))] for _ in range(len(rows))]
	for b in boxes:
	tbl[b["rn"]][b["cn"]].append(b)

	if len(rows) >= 4:
	# remove single in column
	j = 0
	while j < len(tbl[0]):
	e, ii = 0, 0
	for i in range(len(tbl)):
	if tbl[i][j]:
	e += 1
	ii = i
	if e > 1:
	break
	if e > 1:
	j += 1
	continue
	f = (j > 0 and tbl[ii][j - 1] and tbl[ii]
	[j - 1][0].get("text")) or j == 0
	ff = (j + 1 < len(tbl[ii]) and tbl[ii][j + 1] and tbl[ii]
	[j + 1][0].get("text")) or j + 1 >= len(tbl[ii])
	if f and ff:
	j += 1
	continue
	bx = tbl[ii][j][0]
	logging.debug("Relocate column single: " + bx["text"])
	# j column only has one value
	left, right = 100000, 100000
	if j > 0 and not f:
	for i in range(len(tbl)):
	if tbl[i][j - 1]:
	left = min(left, np.min(
	[bx["x0"] - a["x1"] for a in tbl[i][j - 1]]))
	if j + 1 < len(tbl[0]) and not ff:
	for i in range(len(tbl)):
	if tbl[i][j + 1]:
	right = min(right, np.min(
	[a["x0"] - bx["x1"] for a in tbl[i][j + 1]]))
	assert left < 100000 or right < 100000
	if left < right:
	for jj in range(j, len(tbl[0])):
	for i in range(len(tbl)):
	for a in tbl[i][jj]:
	a["cn"] -= 1
	if tbl[ii][j - 1]:
	tbl[ii][j - 1].extend(tbl[ii][j])
	else:
	tbl[ii][j - 1] = tbl[ii][j]
	for i in range(len(tbl)):
	tbl[i].pop(j)

	else:
	for jj in range(j + 1, len(tbl[0])):
	for i in range(len(tbl)):
	for a in tbl[i][jj]:
	a["cn"] -= 1
	if tbl[ii][j + 1]:
	tbl[ii][j + 1].extend(tbl[ii][j])
	else:
	tbl[ii][j + 1] = tbl[ii][j]
	for i in range(len(tbl)):
	tbl[i].pop(j)
	cols.pop(j)
	assert len(cols) == len(tbl[0]), "Column NO. miss matched: %d vs %d" % (
	len(cols), len(tbl[0]))

	if len(cols) >= 4:
	# remove single in row
	i = 0
	while i < len(tbl):
	e, jj = 0, 0
	for j in range(len(tbl[i])):
	if tbl[i][j]:
	e += 1
	jj = j
	if e > 1:
	break
	if e > 1:
	i += 1
	continue
	f = (i > 0 and tbl[i - 1][jj] and tbl[i - 1]
	[jj][0].get("text")) or i == 0
	ff = (i + 1 < len(tbl) and tbl[i + 1][jj] and tbl[i + 1]
	[jj][0].get("text")) or i + 1 >= len(tbl)
	if f and ff:
	i += 1
	continue

	bx = tbl[i][jj][0]
	logging.debug("Relocate row single: " + bx["text"])
	# i row only has one value
	up, down = 100000, 100000
	if i > 0 and not f:
	for j in range(len(tbl[i - 1])):
	if tbl[i - 1][j]:
	up = min(up, np.min(
	[bx["top"] - a["bottom"] for a in tbl[i - 1][j]]))
	if i + 1 < len(tbl) and not ff:
	for j in range(len(tbl[i + 1])):
	if tbl[i + 1][j]:
	down = min(down, np.min(
	[a["top"] - bx["bottom"] for a in tbl[i + 1][j]]))
	assert up < 100000 or down < 100000
	if up < down:
	for ii in range(i, len(tbl)):
	for j in range(len(tbl[ii])):
	for a in tbl[ii][j]:
	a["rn"] -= 1
	if tbl[i - 1][jj]:
	tbl[i - 1][jj].extend(tbl[i][jj])
	else:
	tbl[i - 1][jj] = tbl[i][jj]
	tbl.pop(i)

	else:
	for ii in range(i + 1, len(tbl)):
	for j in range(len(tbl[ii])):
	for a in tbl[ii][j]:
	a["rn"] -= 1
	if tbl[i + 1][jj]:
	tbl[i + 1][jj].extend(tbl[i][jj])
	else:
	tbl[i + 1][jj] = tbl[i][jj]
	tbl.pop(i)
	rows.pop(i)

	# which rows are headers
	hdset = set([])
	for i in range(len(tbl)):
	cnt, h = 0, 0
	for j, arr in enumerate(tbl[i]):
	if not arr:
	continue
	cnt += 1
	if max_type == "Nu" and arr[0]["btype"] == "Nu":
	continue
	if any([a.get("H") for a in arr]) \
	or (max_type == "Nu" and arr[0]["btype"] != "Nu"):
	h += 1
	if h / cnt > 0.5:
	hdset.add(i)

	if html:
	return TableStructureRecognizer.__html_table(cap, hdset,
	TableStructureRecognizer.__cal_spans(boxes, rows,
	cols, tbl, True)
	)

	return TableStructureRecognizer.__desc_table(cap, hdset,
	TableStructureRecognizer.__cal_spans(boxes, rows, cols, tbl,
	False),
	is_english)

	@staticmethod
	def __html_table(cap, hdset, tbl):
	# constrcut HTML
	html = "<table>"
	if cap:
	html += f"<caption>{cap}</caption>"
	for i in range(len(tbl)):
	row = "<tr>"
	txts = []
	for j, arr in enumerate(tbl[i]):
	if arr is None:
	continue
	if not arr:
	row += "<td></td>" if i not in hdset else "<th></th>"
	continue
	txt = ""
	if arr:
	h = min(np.min([c["bottom"] - c["top"] for c in arr]) / 2, 10)
	txt = " ".join([c["text"]
	for c in Recognizer.sort_Y_firstly(arr, h)])
	txts.append(txt)
	sp = ""
	if arr[0].get("colspan"):
	sp = "colspan={}".format(arr[0]["colspan"])
	if arr[0].get("rowspan"):
	sp += " rowspan={}".format(arr[0]["rowspan"])
	if i in hdset:
	row += f"<th {sp} >" + txt + "</th>"
	else:
	row += f"<td {sp} >" + txt + "</td>"

	if i in hdset:
	if all([t in hdset for t in txts]):
	continue
	for t in txts:
	hdset.add(t)

	if row != "<tr>":
	row += "</tr>"
	else:
	row = ""
	html += "\n" + row
	html += "\n</table>"
	return html

	@staticmethod
	def __desc_table(cap, hdr_rowno, tbl, is_english):
	# get text of every colomn in header row to become header text
	clmno = len(tbl[0])
	rowno = len(tbl)
	headers = {}
	hdrset = set()
	lst_hdr = []
	de = "的" if not is_english else " for "
	for r in sorted(list(hdr_rowno)):
	headers[r] = ["" for _ in range(clmno)]
	for i in range(clmno):
	if not tbl[r][i]:
	continue
	txt = " ".join([a["text"].strip() for a in tbl[r][i]])
	headers[r][i] = txt
	hdrset.add(txt)
	if all([not t for t in headers[r]]):
	del headers[r]
	hdr_rowno.remove(r)
	continue
	for j in range(clmno):
	if headers[r][j]:
	continue
	if j >= len(lst_hdr):
	break
	headers[r][j] = lst_hdr[j]
	lst_hdr = headers[r]
	for i in range(rowno):
	if i not in hdr_rowno:
	continue
	for j in range(i + 1, rowno):
	if j not in hdr_rowno:
	break
	for k in range(clmno):
	if not headers[j - 1][k]:
	continue
	if headers[j][k].find(headers[j - 1][k]) >= 0:
	continue
	if len(headers[j][k]) > len(headers[j - 1][k]):
	headers[j][k] += (de if headers[j][k]
	else "") + headers[j - 1][k]
	else:
	headers[j][k] = headers[j - 1][k] \
	+ (de if headers[j - 1][k] else "") \
	+ headers[j][k]

	logging.debug(
	f">>>>>>>>>>>>>>>>>{cap}：SIZE:{rowno}X{clmno} Header: {hdr_rowno}")
	row_txt = []
	for i in range(rowno):
	if i in hdr_rowno:
	continue
	rtxt = []

	def append(delimer):
	nonlocal rtxt, row_txt
	rtxt = delimer.join(rtxt)
	if row_txt and len(row_txt[-1]) + len(rtxt) < 64:
	row_txt[-1] += "\n" + rtxt
	else:
	row_txt.append(rtxt)

	r = 0
	if len(headers.items()):
	_arr = [(i - r, r) for r, _ in headers.items() if r < i]
	if _arr:
	_, r = min(_arr, key=lambda x: x[0])

	if r not in headers and clmno <= 2:
	for j in range(clmno):
	if not tbl[i][j]:
	continue
	txt = "".join([a["text"].strip() for a in tbl[i][j]])
	if txt:
	rtxt.append(txt)
	if rtxt:
	append("：")
	continue

	for j in range(clmno):
	if not tbl[i][j]:
	continue
	txt = "".join([a["text"].strip() for a in tbl[i][j]])
	if not txt:
	continue
	ctt = headers[r][j] if r in headers else ""
	if ctt:
	ctt += "："
	ctt += txt
	if ctt:
	rtxt.append(ctt)

	if rtxt:
	row_txt.append("; ".join(rtxt))

	if cap:
	if is_english:
	from_ = " in "
	else:
	from_ = "来自"
	row_txt = [t + f"\t——{from_}“{cap}”" for t in row_txt]
	return row_txt

	@staticmethod
	def __cal_spans(boxes, rows, cols, tbl, html=True):
	# caculate span
	clft = [np.mean([c.get("C_left", c["x0"]) for c in cln])
	for cln in cols]
	crgt = [np.mean([c.get("C_right", c["x1"]) for c in cln])
	for cln in cols]
	rtop = [np.mean([c.get("R_top", c["top"]) for c in row])
	for row in rows]
	rbtm = [np.mean([c.get("R_btm", c["bottom"])
	for c in row]) for row in rows]
	for b in boxes:
	if "SP" not in b:
	continue
	b["colspan"] = [b["cn"]]
	b["rowspan"] = [b["rn"]]
	# col span
	for j in range(0, len(clft)):
	if j == b["cn"]:
	continue
	if clft[j] + (crgt[j] - clft[j]) / 2 < b["H_left"]:
	continue
	if crgt[j] - (crgt[j] - clft[j]) / 2 > b["H_right"]:
	continue
	b["colspan"].append(j)
	# row span
	for j in range(0, len(rtop)):
	if j == b["rn"]:
	continue
	if rtop[j] + (rbtm[j] - rtop[j]) / 2 < b["H_top"]:
	continue
	if rbtm[j] - (rbtm[j] - rtop[j]) / 2 > b["H_bott"]:
	continue
	b["rowspan"].append(j)

	def join(arr):
	if not arr:
	return ""
	return "".join([t["text"] for t in arr])

	# rm the spaning cells
	for i in range(len(tbl)):
	for j, arr in enumerate(tbl[i]):
	if not arr:
	continue
	if all(["rowspan" not in a and "colspan" not in a for a in arr]):
	continue
	rowspan, colspan = [], []
	for a in arr:
	if isinstance(a.get("rowspan", 0), list):
	rowspan.extend(a["rowspan"])
	if isinstance(a.get("colspan", 0), list):
	colspan.extend(a["colspan"])
	rowspan, colspan = set(rowspan), set(colspan)
	if len(rowspan) < 2 and len(colspan) < 2:
	for a in arr:
	if "rowspan" in a:
	del a["rowspan"]
	if "colspan" in a:
	del a["colspan"]
	continue
	rowspan, colspan = sorted(rowspan), sorted(colspan)
	rowspan = list(range(rowspan[0], rowspan[-1] + 1))
	colspan = list(range(colspan[0], colspan[-1] + 1))
	assert i in rowspan, rowspan
	assert j in colspan, colspan
	arr = []
	for r in rowspan:
	for c in colspan:
	arr_txt = join(arr)
	if tbl[r][c] and join(tbl[r][c]) != arr_txt:
	arr.extend(tbl[r][c])
	tbl[r][c] = None if html else arr
	for a in arr:
	if len(rowspan) > 1:
	a["rowspan"] = len(rowspan)
	elif "rowspan" in a:
	del a["rowspan"]
	if len(colspan) > 1:
	a["colspan"] = len(colspan)
	elif "colspan" in a:
	del a["colspan"]
	tbl[rowspan[0]][colspan[0]] = arr

	return tbl