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import os
import sys
import json
import re
import math
import unicodedata
from collections import Counter
import numpy as np
from termcolor import cprint
from magic_pdf.libs.commons import fitz
from magic_pdf.libs.nlp_utils import NLPModels
if sys.version_info[0] >= 3:
sys.stdout.reconfigure(encoding="utf-8") # type: ignore
def open_pdf(pdf_path):
try:
pdf_document = fitz.open(pdf_path) # type: ignore
return pdf_document
except Exception as e:
print(f"无法打开PDF文件:{pdf_path}。原因是:{e}")
raise e
def print_green_on_red(text):
cprint(text, "green", "on_red", attrs=["bold"], end="\n\n")
def print_green(text):
print()
cprint(text, "green", attrs=["bold"], end="\n\n")
def print_red(text):
print()
cprint(text, "red", attrs=["bold"], end="\n\n")
def print_yellow(text):
print()
cprint(text, "yellow", attrs=["bold"], end="\n\n")
def safe_get(dict_obj, key, default):
val = dict_obj.get(key)
if val is None:
return default
else:
return val
def is_bbox_overlap(bbox1, bbox2):
"""
This function checks if bbox1 and bbox2 overlap or not
Parameters
----------
bbox1 : list
bbox1
bbox2 : list
bbox2
Returns
-------
bool
True if bbox1 and bbox2 overlap, else False
"""
x0_1, y0_1, x1_1, y1_1 = bbox1
x0_2, y0_2, x1_2, y1_2 = bbox2
if x0_1 > x1_2 or x0_2 > x1_1:
return False
if y0_1 > y1_2 or y0_2 > y1_1:
return False
return True
def is_in_bbox(bbox1, bbox2):
"""
This function checks if bbox1 is in bbox2
Parameters
----------
bbox1 : list
bbox1
bbox2 : list
bbox2
Returns
-------
bool
True if bbox1 is in bbox2, else False
"""
x0_1, y0_1, x1_1, y1_1 = bbox1
x0_2, y0_2, x1_2, y1_2 = bbox2
if x0_1 >= x0_2 and y0_1 >= y0_2 and x1_1 <= x1_2 and y1_1 <= y1_2:
return True
else:
return False
def calculate_para_bbox(lines):
"""
This function calculates the minimum bbox of the paragraph
Parameters
----------
lines : list
lines
Returns
-------
para_bbox : list
bbox of the paragraph
"""
x0 = min(line["bbox"][0] for line in lines)
y0 = min(line["bbox"][1] for line in lines)
x1 = max(line["bbox"][2] for line in lines)
y1 = max(line["bbox"][3] for line in lines)
return [x0, y0, x1, y1]
def is_line_right_aligned_from_neighbors(curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_width, direction=2):
"""
This function checks if the line is right aligned from its neighbors
Parameters
----------
curr_line_bbox : list
bbox of the current line
prev_line_bbox : list
bbox of the previous line
next_line_bbox : list
bbox of the next line
avg_char_width : float
average of char widths
direction : int
0 for prev, 1 for next, 2 for both
Returns
-------
bool
True if the line is right aligned from its neighbors, False otherwise.
"""
horizontal_ratio = 0.5
horizontal_thres = horizontal_ratio * avg_char_width
_, _, x1, _ = curr_line_bbox
_, _, prev_x1, _ = prev_line_bbox if prev_line_bbox else (0, 0, 0, 0)
_, _, next_x1, _ = next_line_bbox if next_line_bbox else (0, 0, 0, 0)
if direction == 0:
return abs(x1 - prev_x1) < horizontal_thres
elif direction == 1:
return abs(x1 - next_x1) < horizontal_thres
elif direction == 2:
return abs(x1 - prev_x1) < horizontal_thres and abs(x1 - next_x1) < horizontal_thres
else:
return False
def is_line_left_aligned_from_neighbors(curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_width, direction=2):
"""
This function checks if the line is left aligned from its neighbors
Parameters
----------
curr_line_bbox : list
bbox of the current line
prev_line_bbox : list
bbox of the previous line
next_line_bbox : list
bbox of the next line
avg_char_width : float
average of char widths
direction : int
0 for prev, 1 for next, 2 for both
Returns
-------
bool
True if the line is left aligned from its neighbors, False otherwise.
"""
horizontal_ratio = 0.5
horizontal_thres = horizontal_ratio * avg_char_width
x0, _, _, _ = curr_line_bbox
prev_x0, _, _, _ = prev_line_bbox if prev_line_bbox else (0, 0, 0, 0)
next_x0, _, _, _ = next_line_bbox if next_line_bbox else (0, 0, 0, 0)
if direction == 0:
return abs(x0 - prev_x0) < horizontal_thres
elif direction == 1:
return abs(x0 - next_x0) < horizontal_thres
elif direction == 2:
return abs(x0 - prev_x0) < horizontal_thres and abs(x0 - next_x0) < horizontal_thres
else:
return False
def end_with_punctuation(line_text):
"""
This function checks if the line ends with punctuation marks
"""
english_end_puncs = [".", "?", "!"]
chinese_end_puncs = ["。", "?", "!"]
end_puncs = english_end_puncs + chinese_end_puncs
last_non_space_char = None
for ch in line_text[::-1]:
if not ch.isspace():
last_non_space_char = ch
break
if last_non_space_char is None:
return False
return last_non_space_char in end_puncs
def is_nested_list(lst):
if isinstance(lst, list):
return any(isinstance(sub, list) for sub in lst)
return False
class DenseSingleLineBlockException(Exception):
"""
This class defines the exception type for dense single line-block.
"""
def __init__(self, message="DenseSingleLineBlockException"):
self.message = message
super().__init__(self.message)
def __str__(self):
return f"{self.message}"
def __repr__(self):
return f"{self.message}"
class TitleDetectionException(Exception):
"""
This class defines the exception type for title detection.
"""
def __init__(self, message="TitleDetectionException"):
self.message = message
super().__init__(self.message)
def __str__(self):
return f"{self.message}"
def __repr__(self):
return f"{self.message}"
class TitleLevelException(Exception):
"""
This class defines the exception type for title level.
"""
def __init__(self, message="TitleLevelException"):
self.message = message
super().__init__(self.message)
def __str__(self):
return f"{self.message}"
def __repr__(self):
return f"{self.message}"
class ParaSplitException(Exception):
"""
This class defines the exception type for paragraph splitting.
"""
def __init__(self, message="ParaSplitException"):
self.message = message
super().__init__(self.message)
def __str__(self):
return f"{self.message}"
def __repr__(self):
return f"{self.message}"
class ParaMergeException(Exception):
"""
This class defines the exception type for paragraph merging.
"""
def __init__(self, message="ParaMergeException"):
self.message = message
super().__init__(self.message)
def __str__(self):
return f"{self.message}"
def __repr__(self):
return f"{self.message}"
class DiscardByException:
"""
This class discards pdf files by exception
"""
def __init__(self) -> None:
pass
def discard_by_single_line_block(self, pdf_dic, exception: DenseSingleLineBlockException):
"""
This function discards pdf files by single line block exception
Parameters
----------
pdf_dic : dict
pdf dictionary
exception : str
exception message
Returns
-------
error_message : str
"""
exception_page_nums = 0
page_num = 0
for page_id, page in pdf_dic.items():
if page_id.startswith("page_"):
page_num += 1
if "preproc_blocks" in page.keys():
preproc_blocks = page["preproc_blocks"]
all_single_line_blocks = []
for block in preproc_blocks:
if len(block["lines"]) == 1:
all_single_line_blocks.append(block)
if len(preproc_blocks) > 0 and len(all_single_line_blocks) / len(preproc_blocks) > 0.9:
exception_page_nums += 1
if page_num == 0:
return None
if exception_page_nums / page_num > 0.1: # Low ratio means basically, whenever this is the case, it is discarded
return exception.message
return None
def discard_by_title_detection(self, pdf_dic, exception: TitleDetectionException):
"""
This function discards pdf files by title detection exception
Parameters
----------
pdf_dic : dict
pdf dictionary
exception : str
exception message
Returns
-------
error_message : str
"""
# return exception.message
return None
def discard_by_title_level(self, pdf_dic, exception: TitleLevelException):
"""
This function discards pdf files by title level exception
Parameters
----------
pdf_dic : dict
pdf dictionary
exception : str
exception message
Returns
-------
error_message : str
"""
# return exception.message
return None
def discard_by_split_para(self, pdf_dic, exception: ParaSplitException):
"""
This function discards pdf files by split para exception
Parameters
----------
pdf_dic : dict
pdf dictionary
exception : str
exception message
Returns
-------
error_message : str
"""
# return exception.message
return None
def discard_by_merge_para(self, pdf_dic, exception: ParaMergeException):
"""
This function discards pdf files by merge para exception
Parameters
----------
pdf_dic : dict
pdf dictionary
exception : str
exception message
Returns
-------
error_message : str
"""
# return exception.message
return None
class LayoutFilterProcessor:
def __init__(self) -> None:
pass
def batch_process_blocks(self, pdf_dict):
"""
This function processes the blocks in batch.
Parameters
----------
self : object
The instance of the class.
pdf_dict : dict
pdf dictionary
Returns
-------
pdf_dict : dict
pdf dictionary
"""
for page_id, blocks in pdf_dict.items():
if page_id.startswith("page_"):
if "layout_bboxes" in blocks.keys() and "para_blocks" in blocks.keys():
layout_bbox_objs = blocks["layout_bboxes"]
if layout_bbox_objs is None:
continue
layout_bboxes = [bbox_obj["layout_bbox"] for bbox_obj in layout_bbox_objs]
# Enlarge each value of x0, y0, x1, y1 for each layout_bbox to prevent loss of text.
layout_bboxes = [
[math.ceil(x0), math.ceil(y0), math.ceil(x1), math.ceil(y1)] for x0, y0, x1, y1 in layout_bboxes
]
para_blocks = blocks["para_blocks"]
if para_blocks is None:
continue
for lb_bbox in layout_bboxes:
for i, para_block in enumerate(para_blocks):
para_bbox = para_block["bbox"]
para_blocks[i]["in_layout"] = 0
if is_in_bbox(para_bbox, lb_bbox):
para_blocks[i]["in_layout"] = 1
blocks["para_blocks"] = para_blocks
return pdf_dict
class RawBlockProcessor:
def __init__(self) -> None:
self.y_tolerance = 2
self.pdf_dic = {}
def __span_flags_decomposer(self, span_flags):
"""
Make font flags human readable.
Parameters
----------
self : object
The instance of the class.
span_flags : int
span flags
Returns
-------
l : dict
decomposed flags
"""
l = {
"is_superscript": False,
"is_italic": False,
"is_serifed": False,
"is_sans_serifed": False,
"is_monospaced": False,
"is_proportional": False,
"is_bold": False,
}
if span_flags & 2**0:
l["is_superscript"] = True # 表示上标
if span_flags & 2**1:
l["is_italic"] = True # 表示斜体
if span_flags & 2**2:
l["is_serifed"] = True # 表示衬线字体
else:
l["is_sans_serifed"] = True # 表示非衬线字体
if span_flags & 2**3:
l["is_monospaced"] = True # 表示等宽字体
else:
l["is_proportional"] = True # 表示比例字体
if span_flags & 2**4:
l["is_bold"] = True # 表示粗体
return l
def __make_new_lines(self, raw_lines):
"""
This function makes new lines.
Parameters
----------
self : object
The instance of the class.
raw_lines : list
raw lines
Returns
-------
new_lines : list
new lines
"""
new_lines = []
new_line = None
for raw_line in raw_lines:
raw_line_bbox = raw_line["bbox"]
raw_line_spans = raw_line["spans"]
raw_line_text = "".join([span["text"] for span in raw_line_spans])
raw_line_dir = raw_line.get("dir", None)
decomposed_line_spans = []
for span in raw_line_spans:
raw_flags = span["flags"]
decomposed_flags = self.__span_flags_decomposer(raw_flags)
span["decomposed_flags"] = decomposed_flags
decomposed_line_spans.append(span)
if new_line is None: # Handle the first line
new_line = {
"bbox": raw_line_bbox,
"text": raw_line_text,
"dir": raw_line_dir if raw_line_dir else (0, 0),
"spans": decomposed_line_spans,
}
else: # Handle the rest lines
if (
abs(raw_line_bbox[1] - new_line["bbox"][1]) <= self.y_tolerance
and abs(raw_line_bbox[3] - new_line["bbox"][3]) <= self.y_tolerance
):
new_line["bbox"] = (
min(new_line["bbox"][0], raw_line_bbox[0]), # left
new_line["bbox"][1], # top
max(new_line["bbox"][2], raw_line_bbox[2]), # right
raw_line_bbox[3], # bottom
)
new_line["text"] += raw_line_text
new_line["spans"].extend(raw_line_spans)
new_line["dir"] = (
new_line["dir"][0] + raw_line_dir[0],
new_line["dir"][1] + raw_line_dir[1],
)
else:
new_lines.append(new_line)
new_line = {
"bbox": raw_line_bbox,
"text": raw_line_text,
"dir": raw_line_dir if raw_line_dir else (0, 0),
"spans": raw_line_spans,
}
if new_line:
new_lines.append(new_line)
return new_lines
def __make_new_block(self, raw_block):
"""
This function makes a new block.
Parameters
----------
self : object
The instance of the class.
----------
raw_block : dict
a raw block
Returns
-------
new_block : dict
"""
new_block = {}
block_id = raw_block["number"]
block_bbox = raw_block["bbox"]
block_text = "".join(span["text"] for line in raw_block["lines"] for span in line["spans"])
raw_lines = raw_block["lines"]
block_lines = self.__make_new_lines(raw_lines)
new_block["block_id"] = block_id
new_block["bbox"] = block_bbox
new_block["text"] = block_text
new_block["lines"] = block_lines
return new_block
def batch_process_blocks(self, pdf_dic):
"""
This function processes the blocks in batch.
Parameters
----------
self : object
The instance of the class.
----------
blocks : list
Input block is a list of raw blocks.
Returns
-------
result_dict : dict
result dictionary
"""
for page_id, blocks in pdf_dic.items():
if page_id.startswith("page_"):
para_blocks = []
if "preproc_blocks" in blocks.keys():
input_blocks = blocks["preproc_blocks"]
for raw_block in input_blocks:
new_block = self.__make_new_block(raw_block)
para_blocks.append(new_block)
blocks["para_blocks"] = para_blocks
return pdf_dic
class BlockStatisticsCalculator:
"""
This class calculates the statistics of the block.
"""
def __init__(self) -> None:
pass
def __calc_stats_of_new_lines(self, new_lines):
"""
This function calculates the paragraph metrics
Parameters
----------
combined_lines : list
combined lines
Returns
-------
X0 : float
Median of x0 values, which represents the left average boundary of the block
X1 : float
Median of x1 values, which represents the right average boundary of the block
avg_char_width : float
Average of char widths, which represents the average char width of the block
avg_char_height : float
Average of line heights, which represents the average line height of the block
"""
x0_values = []
x1_values = []
char_widths = []
char_heights = []
block_font_types = []
block_font_sizes = []
block_directions = []
if len(new_lines) > 0:
for i, line in enumerate(new_lines):
line_bbox = line["bbox"]
line_text = line["text"]
line_spans = line["spans"]
num_chars = len([ch for ch in line_text if not ch.isspace()])
x0_values.append(line_bbox[0])
x1_values.append(line_bbox[2])
if num_chars > 0:
char_width = (line_bbox[2] - line_bbox[0]) / num_chars
char_widths.append(char_width)
for span in line_spans:
block_font_types.append(span["font"])
block_font_sizes.append(span["size"])
if "dir" in line:
block_directions.append(line["dir"])
# line_font_types = [span["font"] for span in line_spans]
char_heights = [span["size"] for span in line_spans]
X0 = np.median(x0_values) if x0_values else 0
X1 = np.median(x1_values) if x1_values else 0
avg_char_width = sum(char_widths) / len(char_widths) if char_widths else 0
avg_char_height = sum(char_heights) / len(char_heights) if char_heights else 0
# max_freq_font_type = max(set(block_font_types), key=block_font_types.count) if block_font_types else None
max_span_length = 0
max_span_font_type = None
for line in new_lines:
line_spans = line["spans"]
for span in line_spans:
span_length = span["bbox"][2] - span["bbox"][0]
if span_length > max_span_length:
max_span_length = span_length
max_span_font_type = span["font"]
max_freq_font_type = max_span_font_type
avg_font_size = sum(block_font_sizes) / len(block_font_sizes) if block_font_sizes else None
avg_dir_horizontal = sum([dir[0] for dir in block_directions]) / len(block_directions) if block_directions else 0
avg_dir_vertical = sum([dir[1] for dir in block_directions]) / len(block_directions) if block_directions else 0
median_font_size = float(np.median(block_font_sizes)) if block_font_sizes else None
return (
X0,
X1,
avg_char_width,
avg_char_height,
max_freq_font_type,
avg_font_size,
(avg_dir_horizontal, avg_dir_vertical),
median_font_size,
)
def __make_new_block(self, input_block):
new_block = {}
raw_lines = input_block["lines"]
stats = self.__calc_stats_of_new_lines(raw_lines)
block_id = input_block["block_id"]
block_bbox = input_block["bbox"]
block_text = input_block["text"]
block_lines = raw_lines
block_avg_left_boundary = stats[0]
block_avg_right_boundary = stats[1]
block_avg_char_width = stats[2]
block_avg_char_height = stats[3]
block_font_type = stats[4]
block_font_size = stats[5]
block_direction = stats[6]
block_median_font_size = stats[7]
new_block["block_id"] = block_id
new_block["bbox"] = block_bbox
new_block["text"] = block_text
new_block["dir"] = block_direction
new_block["X0"] = block_avg_left_boundary
new_block["X1"] = block_avg_right_boundary
new_block["avg_char_width"] = block_avg_char_width
new_block["avg_char_height"] = block_avg_char_height
new_block["block_font_type"] = block_font_type
new_block["block_font_size"] = block_font_size
new_block["lines"] = block_lines
new_block["median_font_size"] = block_median_font_size
return new_block
def batch_process_blocks(self, pdf_dic):
"""
This function processes the blocks in batch.
Parameters
----------
self : object
The instance of the class.
----------
blocks : list
Input block is a list of raw blocks.
Schema can refer to the value of key ""preproc_blocks".
Returns
-------
result_dict : dict
result dictionary
"""
for page_id, blocks in pdf_dic.items():
if page_id.startswith("page_"):
para_blocks = []
if "para_blocks" in blocks.keys():
input_blocks = blocks["para_blocks"]
for input_block in input_blocks:
new_block = self.__make_new_block(input_block)
para_blocks.append(new_block)
blocks["para_blocks"] = para_blocks
return pdf_dic
class DocStatisticsCalculator:
"""
This class calculates the statistics of the document.
"""
def __init__(self) -> None:
pass
def calc_stats_of_doc(self, pdf_dict):
"""
This function computes the statistics of the document
Parameters
----------
result_dict : dict
result dictionary
Returns
-------
statistics : dict
statistics of the document
"""
total_text_length = 0
total_num_blocks = 0
for page_id, blocks in pdf_dict.items():
if page_id.startswith("page_"):
if "para_blocks" in blocks.keys():
para_blocks = blocks["para_blocks"]
for para_block in para_blocks:
total_text_length += len(para_block["text"])
total_num_blocks += 1
avg_text_length = total_text_length / total_num_blocks if total_num_blocks else 0
font_list = []
for page_id, blocks in pdf_dict.items():
if page_id.startswith("page_"):
if "para_blocks" in blocks.keys():
input_blocks = blocks["para_blocks"]
for input_block in input_blocks:
block_text_length = len(input_block.get("text", ""))
if block_text_length < avg_text_length * 0.5:
continue
block_font_type = safe_get(input_block, "block_font_type", "")
block_font_size = safe_get(input_block, "block_font_size", 0)
font_list.append((block_font_type, block_font_size))
font_counter = Counter(font_list)
most_common_font = font_counter.most_common(1)[0] if font_list else (("", 0), 0)
second_most_common_font = font_counter.most_common(2)[1] if len(font_counter) > 1 else (("", 0), 0)
statistics = {
"num_pages": 0,
"num_blocks": 0,
"num_paras": 0,
"num_titles": 0,
"num_header_blocks": 0,
"num_footer_blocks": 0,
"num_watermark_blocks": 0,
"num_vertical_margin_note_blocks": 0,
"most_common_font_type": most_common_font[0][0],
"most_common_font_size": most_common_font[0][1],
"number_of_most_common_font": most_common_font[1],
"second_most_common_font_type": second_most_common_font[0][0],
"second_most_common_font_size": second_most_common_font[0][1],
"number_of_second_most_common_font": second_most_common_font[1],
"avg_text_length": avg_text_length,
}
for page_id, blocks in pdf_dict.items():
if page_id.startswith("page_"):
blocks = pdf_dict[page_id]["para_blocks"]
statistics["num_pages"] += 1
for block_id, block_data in enumerate(blocks):
statistics["num_blocks"] += 1
if "paras" in block_data.keys():
statistics["num_paras"] += len(block_data["paras"])
for line in block_data["lines"]:
if line.get("is_title", 0):
statistics["num_titles"] += 1
if block_data.get("is_header", 0):
statistics["num_header_blocks"] += 1
if block_data.get("is_footer", 0):
statistics["num_footer_blocks"] += 1
if block_data.get("is_watermark", 0):
statistics["num_watermark_blocks"] += 1
if block_data.get("is_vertical_margin_note", 0):
statistics["num_vertical_margin_note_blocks"] += 1
pdf_dict["statistics"] = statistics
return pdf_dict
class TitleProcessor:
"""
This class processes the title.
"""
def __init__(self, *doc_statistics) -> None:
if len(doc_statistics) > 0:
self.doc_statistics = doc_statistics[0]
self.nlp_model = NLPModels()
self.MAX_TITLE_LEVEL = 3
self.numbered_title_pattern = r"""
^ # 行首
( # 开始捕获组
[\(\(]\d+[\)\)] # 括号内数字,支持中文和英文括号,例如:(1) 或 (1)
|\d+[\)\)]\s # 数字后跟右括号和空格,支持中文和英文括号,例如:2) 或 2)
|[\(\(][A-Z][\)\)] # 括号内大写字母,支持中文和英文括号,例如:(A) 或 (A)
|[A-Z][\)\)]\s # 大写字母后跟右括号和空格,例如:A) 或 A)
|[\(\(][IVXLCDM]+[\)\)] # 括号内罗马数字,支持中文和英文括号,例如:(I) 或 (I)
|[IVXLCDM]+[\)\)]\s # 罗马数字后跟右括号和空格,例如:I) 或 I)
|\d+(\.\d+)*\s # 数字或复合数字编号后跟空格,例如:1. 或 3.2.1
|[一二三四五六七八九十百千]+[、\s] # 中文序号后跟顿号和空格,例如:一、
|[\(|\(][一二三四五六七八九十百千]+[\)|\)]\s* # 中文括号内中文序号后跟空格,例如:(一)
|[A-Z]\.\d+(\.\d+)?\s # 大写字母后跟点和数字,例如:A.1 或 A.1.1
|[\(\(][a-z][\)\)] # 括号内小写字母,支持中文和英文括号,例如:(a) 或 (a)
|[a-z]\)\s # 小写字母后跟右括号和空格,例如:a)
|[A-Z]-\s # 大写字母后跟短横线和空格,例如:A-
|\w+:\s # 英文序号词后跟冒号和空格,例如:First:
|第[一二三四五六七八九十百千]+[章节部分条款]\s # 以“第”开头的中文标题后跟空格
|[IVXLCDM]+\. # 罗马数字后跟点,例如:I.
|\d+\.\s # 单个数字后跟点和空格,例如:1.
) # 结束捕获组
.+ # 标题的其余部分
"""
def _is_potential_title(
self,
curr_line,
prev_line,
prev_line_is_title,
next_line,
avg_char_width,
avg_char_height,
median_font_size,
):
"""
This function checks if the line is a potential title.
Parameters
----------
curr_line : dict
current line
prev_line : dict
previous line
next_line : dict
next line
avg_char_width : float
average of char widths
avg_char_height : float
average of line heights
Returns
-------
bool
True if the line is a potential title, False otherwise.
"""
def __is_line_centered(line_bbox, page_bbox, avg_char_width):
"""
This function checks if the line is centered on the page
Parameters
----------
line_bbox : list
bbox of the line
page_bbox : list
bbox of the page
avg_char_width : float
average of char widths
Returns
-------
bool
True if the line is centered on the page, False otherwise.
"""
horizontal_ratio = 0.5
horizontal_thres = horizontal_ratio * avg_char_width
x0, _, x1, _ = line_bbox
_, _, page_x1, _ = page_bbox
return abs((x0 + x1) / 2 - page_x1 / 2) < horizontal_thres
def __is_bold_font_line(line):
"""
Check if a line contains any bold font style.
"""
def _is_bold_span(span):
# if span text is empty or only contains space, return False
if not span["text"].strip():
return False
return bool(span["flags"] & 2**4) # Check if the font is bold
for span in line["spans"]:
if not _is_bold_span(span):
return False
return True
def __is_italic_font_line(line):
"""
Check if a line contains any italic font style.
"""
def __is_italic_span(span):
return bool(span["flags"] & 2**1) # Check if the font is italic
for span in line["spans"]:
if not __is_italic_span(span):
return False
return True
def __is_punctuation_heavy(line_text):
"""
Check if the line contains a high ratio of punctuation marks, which may indicate
that the line is not a title.
Parameters:
line_text (str): Text of the line.
Returns:
bool: True if the line is heavy with punctuation, False otherwise.
"""
# Pattern for common title format like "X.Y. Title"
pattern = r"\b\d+\.\d+\..*\b"
# If the line matches the title format, return False
if re.match(pattern, line_text.strip()):
return False
# Find all punctuation marks in the line
punctuation_marks = re.findall(r"[^\w\s]", line_text)
number_of_punctuation_marks = len(punctuation_marks)
text_length = len(line_text)
if text_length == 0:
return False
punctuation_ratio = number_of_punctuation_marks / text_length
if punctuation_ratio >= 0.1:
return True
return False
def __has_mixed_font_styles(spans, strict_mode=False):
"""
This function checks if the line has mixed font styles, the strict mode will compare the font types
Parameters
----------
spans : list
spans of the line
strict_mode : bool
True for strict mode, the font types will be fully compared
False for non-strict mode, the font types will be compared by the most longest common prefix
Returns
-------
bool
True if the line has mixed font styles, False otherwise.
"""
if strict_mode:
font_styles = set()
for span in spans:
font_style = span["font"].lower()
font_styles.add(font_style)
return len(font_styles) > 1
else: # non-strict mode
font_styles = []
for span in spans:
font_style = span["font"].lower()
font_styles.append(font_style)
if len(font_styles) > 1:
longest_common_prefix = os.path.commonprefix(font_styles)
if len(longest_common_prefix) > 0:
return False
else:
return True
else:
return False
def __is_different_font_type_from_neighbors(curr_line_font_type, prev_line_font_type, next_line_font_type):
"""
This function checks if the current line has a different font type from the previous and next lines
Parameters
----------
curr_line_font_type : str
font type of the current line
prev_line_font_type : str
font type of the previous line
next_line_font_type : str
font type of the next line
Returns
-------
bool
True if the current line has a different font type from the previous and next lines, False otherwise.
"""
return all(
curr_line_font_type != other_font_type.lower()
for other_font_type in [prev_line_font_type, next_line_font_type]
if other_font_type is not None
)
def __is_larger_font_size_from_neighbors(curr_line_font_size, prev_line_font_size, next_line_font_size):
"""
This function checks if the current line has a larger font size than the previous and next lines
Parameters
----------
curr_line_font_size : float
font size of the current line
prev_line_font_size : float
font size of the previous line
next_line_font_size : float
font size of the next line
Returns
-------
bool
True if the current line has a larger font size than the previous and next lines, False otherwise.
"""
return all(
curr_line_font_size > other_font_size * 1.2
for other_font_size in [prev_line_font_size, next_line_font_size]
if other_font_size is not None
)
def __is_similar_to_pre_line(curr_line_font_type, prev_line_font_type, curr_line_font_size, prev_line_font_size):
"""
This function checks if the current line is similar to the previous line
Parameters
----------
curr_line : dict
current line
prev_line : dict
previous line
Returns
-------
bool
True if the current line is similar to the previous line, False otherwise.
"""
if curr_line_font_type == prev_line_font_type and curr_line_font_size == prev_line_font_size:
return True
else:
return False
def __is_same_font_type_of_docAvg(curr_line_font_type):
"""
This function checks if the current line has the same font type as the document average font type
Parameters
----------
curr_line_font_type : str
font type of the current line
Returns
-------
bool
True if the current line has the same font type as the document average font type, False otherwise.
"""
doc_most_common_font_type = safe_get(self.doc_statistics, "most_common_font_type", "").lower()
doc_second_most_common_font_type = safe_get(self.doc_statistics, "second_most_common_font_type", "").lower()
return curr_line_font_type.lower() in [doc_most_common_font_type, doc_second_most_common_font_type]
def __is_font_size_not_less_than_docAvg(curr_line_font_size, ratio: float = 1):
"""
This function checks if the current line has a large enough font size
Parameters
----------
curr_line_font_size : float
font size of the current line
ratio : float
ratio of the current line font size to the document average font size
Returns
-------
bool
True if the current line has a large enough font size, False otherwise.
"""
doc_most_common_font_size = safe_get(self.doc_statistics, "most_common_font_size", 0)
doc_second_most_common_font_size = safe_get(self.doc_statistics, "second_most_common_font_size", 0)
doc_avg_font_size = min(doc_most_common_font_size, doc_second_most_common_font_size)
return curr_line_font_size >= doc_avg_font_size * ratio
def __is_sufficient_spacing_above_and_below(
curr_line_bbox,
prev_line_bbox,
next_line_bbox,
avg_char_height,
median_font_size,
):
"""
This function checks if the current line has sufficient spacing above and below
Parameters
----------
curr_line_bbox : list
bbox of the current line
prev_line_bbox : list
bbox of the previous line
next_line_bbox : list
bbox of the next line
avg_char_width : float
average of char widths
avg_char_height : float
average of line heights
Returns
-------
bool
True if the current line has sufficient spacing above and below, False otherwise.
"""
vertical_ratio = 1.25
vertical_thres = vertical_ratio * median_font_size
_, y0, _, y1 = curr_line_bbox
sufficient_spacing_above = False
if prev_line_bbox:
vertical_spacing_above = min(y0 - prev_line_bbox[1], y1 - prev_line_bbox[3])
sufficient_spacing_above = vertical_spacing_above > vertical_thres
else:
sufficient_spacing_above = True
sufficient_spacing_below = False
if next_line_bbox:
vertical_spacing_below = min(next_line_bbox[1] - y0, next_line_bbox[3] - y1)
sufficient_spacing_below = vertical_spacing_below > vertical_thres
else:
sufficient_spacing_below = True
return (sufficient_spacing_above, sufficient_spacing_below)
def __is_word_list_line_by_rules(curr_line_text):
"""
This function checks if the current line is a word list
Parameters
----------
curr_line_text : str
text of the current line
Returns
-------
bool
True if the current line is a name list, False otherwise.
"""
# name_list_pattern = r"([a-zA-Z][a-zA-Z\s]{0,20}[a-zA-Z]|[\u4e00-\u9fa5·]{2,16})(?=[,,;;\s]|$)"
name_list_pattern = r"(?<![\u4e00-\u9fa5])([A-Z][a-z]{0,19}\s[A-Z][a-z]{0,19}|[\u4e00-\u9fa5]{2,6})(?=[,,;;\s]|$)"
compiled_pattern = re.compile(name_list_pattern)
if compiled_pattern.search(curr_line_text):
return True
else:
return False
def __get_text_catgr_by_nlp(curr_line_text):
"""
This function checks if the current line is a name list using nlp model, such as spacy
Parameters
----------
curr_line_text : str
text of the current line
Returns
-------
bool
True if the current line is a name list, False otherwise.
"""
result = self.nlp_model.detect_entity_catgr_using_nlp(curr_line_text)
return result
def __is_numbered_title(curr_line_text):
"""
This function checks if the current line is a numbered list
Parameters
----------
curr_line_text : str
text of the current line
Returns
-------
bool
True if the current line is a numbered list, False otherwise.
"""
compiled_pattern = re.compile(self.numbered_title_pattern, re.VERBOSE)
if compiled_pattern.search(curr_line_text):
return True
else:
return False
def __is_end_with_ending_puncs(line_text):
"""
This function checks if the current line ends with a ending punctuation mark
Parameters
----------
line_text : str
text of the current line
Returns
-------
bool
True if the current line ends with a punctuation mark, False otherwise.
"""
end_puncs = [".", "?", "!", "。", "?", "!", "…"]
line_text = line_text.rstrip()
if line_text[-1] in end_puncs:
return True
return False
def __contains_only_no_meaning_symbols(line_text):
"""
This function checks if the current line contains only symbols that have no meaning, if so, it is not a title.
Situation contains:
1. Only have punctuation marks
2. Only have other non-meaning symbols
Parameters
----------
line_text : str
text of the current line
Returns
-------
bool
True if the current line contains only symbols that have no meaning, False otherwise.
"""
punctuation_marks = re.findall(r"[^\w\s]", line_text) # find all punctuation marks
number_of_punctuation_marks = len(punctuation_marks)
text_length = len(line_text)
if text_length == 0:
return False
punctuation_ratio = number_of_punctuation_marks / text_length
if punctuation_ratio >= 0.9:
return True
return False
def __is_equation(line_text):
"""
This function checks if the current line is an equation.
Parameters
----------
line_text : str
Returns
-------
bool
True if the current line is an equation, False otherwise.
"""
equation_reg = r"\$.*?\\overline.*?\$" # to match interline equations
if re.search(equation_reg, line_text):
return True
else:
return False
def __is_title_by_len(text, max_length=200):
"""
This function checks if the current line is a title by length.
Parameters
----------
text : str
text of the current line
max_length : int
max length of the title
Returns
-------
bool
True if the current line is a title, False otherwise.
"""
text = text.strip()
return len(text) <= max_length
def __compute_line_font_type_and_size(curr_line):
"""
This function computes the font type and font size of the line.
Parameters
----------
line : dict
line
Returns
-------
font_type : str
font type of the line
font_size : float
font size of the line
"""
spans = curr_line["spans"]
max_accumulated_length = 0
max_span_font_size = curr_line["spans"][0]["size"] # default value, float type
max_span_font_type = curr_line["spans"][0]["font"].lower() # default value, string type
for span in spans:
if span["text"].isspace():
continue
span_length = span["bbox"][2] - span["bbox"][0]
if span_length > max_accumulated_length:
max_accumulated_length = span_length
max_span_font_size = span["size"]
max_span_font_type = span["font"].lower()
return max_span_font_type, max_span_font_size
def __is_a_consistent_sub_title(pre_line, curr_line):
"""
This function checks if the current line is a consistent sub title.
Parameters
----------
pre_line : dict
previous line
curr_line : dict
current line
Returns
-------
bool
True if the current line is a consistent sub title, False otherwise.
"""
if pre_line is None:
return False
start_letter_of_pre_line = pre_line["text"][0]
start_letter_of_curr_line = curr_line["text"][0]
has_same_prefix_digit = (
start_letter_of_pre_line.isdigit()
and start_letter_of_curr_line.isdigit()
and start_letter_of_pre_line == start_letter_of_curr_line
)
# prefix text of curr_line satisfies the following title format: x.x
prefix_text_pattern = r"^\d+\.\d+"
has_subtitle_format = re.match(prefix_text_pattern, curr_line["text"])
if has_same_prefix_digit or has_subtitle_format:
return True
"""
Title detecting main Process.
"""
"""
Basic features about the current line.
"""
curr_line_bbox = curr_line["bbox"]
curr_line_text = curr_line["text"]
curr_line_font_type, curr_line_font_size = __compute_line_font_type_and_size(curr_line)
if len(curr_line_text.strip()) == 0: # skip empty lines
return False, False
prev_line_bbox = prev_line["bbox"] if prev_line else None
if prev_line:
prev_line_font_type, prev_line_font_size = __compute_line_font_type_and_size(prev_line)
else:
prev_line_font_type, prev_line_font_size = None, None
next_line_bbox = next_line["bbox"] if next_line else None
if next_line:
next_line_font_type, next_line_font_size = __compute_line_font_type_and_size(next_line)
else:
next_line_font_type, next_line_font_size = None, None
"""
Aggregated features about the current line.
"""
is_italc_font = __is_italic_font_line(curr_line)
is_bold_font = __is_bold_font_line(curr_line)
is_font_size_little_less_than_doc_avg = __is_font_size_not_less_than_docAvg(curr_line_font_size, ratio=0.8)
is_font_size_not_less_than_doc_avg = __is_font_size_not_less_than_docAvg(curr_line_font_size, ratio=1)
is_much_larger_font_than_doc_avg = __is_font_size_not_less_than_docAvg(curr_line_font_size, ratio=1.6)
is_not_same_font_type_of_docAvg = not __is_same_font_type_of_docAvg(curr_line_font_type)
is_potential_title_font = is_bold_font or is_font_size_not_less_than_doc_avg or is_not_same_font_type_of_docAvg
is_mix_font_styles_strict = __has_mixed_font_styles(curr_line["spans"], strict_mode=True)
is_mix_font_styles_loose = __has_mixed_font_styles(curr_line["spans"], strict_mode=False)
is_punctuation_heavy = __is_punctuation_heavy(curr_line_text)
is_word_list_line_by_rules = __is_word_list_line_by_rules(curr_line_text)
is_person_or_org_list_line_by_nlp = __get_text_catgr_by_nlp(curr_line_text) in ["PERSON", "GPE", "ORG"]
is_font_size_larger_than_neighbors = __is_larger_font_size_from_neighbors(
curr_line_font_size, prev_line_font_size, next_line_font_size
)
is_font_type_diff_from_neighbors = __is_different_font_type_from_neighbors(
curr_line_font_type, prev_line_font_type, next_line_font_type
)
has_sufficient_spaces_above, has_sufficient_spaces_below = __is_sufficient_spacing_above_and_below(
curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_height, median_font_size
)
is_similar_to_pre_line = __is_similar_to_pre_line(
curr_line_font_type, prev_line_font_type, curr_line_font_size, prev_line_font_size
)
is_consis_sub_title = __is_a_consistent_sub_title(prev_line, curr_line)
"""
Further aggregated features about the current line.
Attention:
Features that start with __ are for internal use.
"""
__is_line_left_aligned_from_neighbors = is_line_left_aligned_from_neighbors(
curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_width
)
__is_font_diff_from_neighbors = is_font_size_larger_than_neighbors or is_font_type_diff_from_neighbors
is_a_left_inline_title = (
is_mix_font_styles_strict and __is_line_left_aligned_from_neighbors and __is_font_diff_from_neighbors
)
is_title_by_check_prev_line = prev_line is None and has_sufficient_spaces_above and is_potential_title_font
is_title_by_check_next_line = next_line is None and has_sufficient_spaces_below and is_potential_title_font
is_title_by_check_pre_and_next_line = (
(prev_line is not None or next_line is not None)
and has_sufficient_spaces_above
and has_sufficient_spaces_below
and is_potential_title_font
)
is_numbered_title = __is_numbered_title(curr_line_text) and (
(has_sufficient_spaces_above or prev_line is None) and (has_sufficient_spaces_below or next_line is None)
)
is_not_end_with_ending_puncs = not __is_end_with_ending_puncs(curr_line_text)
is_not_only_no_meaning_symbols = not __contains_only_no_meaning_symbols(curr_line_text)
is_equation = __is_equation(curr_line_text)
is_title_by_len = __is_title_by_len(curr_line_text)
"""
Decide if the line is a title.
"""
is_title = (
is_not_end_with_ending_puncs # not end with ending punctuation marks
and is_not_only_no_meaning_symbols # not only have no meaning symbols
and is_title_by_len # is a title by length, default max length is 200
and not is_equation # an interline equation should never be a title
and is_potential_title_font # is a potential title font, which is bold or larger than the document average font size or not the same font type as the document average font type
and (
(is_not_same_font_type_of_docAvg and is_font_size_not_less_than_doc_avg)
or (is_bold_font and is_much_larger_font_than_doc_avg and is_not_same_font_type_of_docAvg)
or (
is_much_larger_font_than_doc_avg
and (is_title_by_check_prev_line or is_title_by_check_next_line or is_title_by_check_pre_and_next_line)
)
or (
is_font_size_little_less_than_doc_avg
and is_bold_font
and (is_title_by_check_prev_line or is_title_by_check_next_line or is_title_by_check_pre_and_next_line)
)
) # Consider the following situations: bold font, much larger font than doc avg, not same font type as doc avg, sufficient spacing above and below
and (
(
not is_person_or_org_list_line_by_nlp
and (
is_much_larger_font_than_doc_avg
or (is_not_same_font_type_of_docAvg and is_font_size_not_less_than_doc_avg)
)
)
or (
not (is_word_list_line_by_rules and is_person_or_org_list_line_by_nlp)
and not is_a_left_inline_title
and not is_punctuation_heavy
and (is_title_by_check_prev_line or is_title_by_check_next_line or is_title_by_check_pre_and_next_line)
)
or (
is_person_or_org_list_line_by_nlp
and (is_bold_font and is_much_larger_font_than_doc_avg and is_not_same_font_type_of_docAvg)
and (is_bold_font and is_much_larger_font_than_doc_avg and is_not_same_font_type_of_docAvg)
)
or (is_numbered_title and not is_a_left_inline_title)
) # Exclude the following situations: person/org list
)
# ) or (prev_line_is_title and is_consis_sub_title)
is_name_or_org_list_to_be_removed = (
(is_person_or_org_list_line_by_nlp)
and is_punctuation_heavy
and (is_title_by_check_prev_line or is_title_by_check_next_line or is_title_by_check_pre_and_next_line)
) and not is_title
if is_name_or_org_list_to_be_removed:
is_author_or_org_list = True
else:
is_author_or_org_list = False
# return is_title, is_author_or_org_list
"""
# print reason why the line is a title
if is_title:
print_green("This line is a title.")
print_green("↓" * 10)
print()
print("curr_line_text: ", curr_line_text)
print()
# print reason why the line is not a title
line_text = curr_line_text.strip()
test_text = "Career/Personal Life"
text_content_condition = line_text == test_text
if not is_title and text_content_condition: # Print specific line
# if not is_title: # Print each line
print_red("This line is not a title.")
print_red("↓" * 10)
print()
print("curr_line_text: ", curr_line_text)
print()
if is_not_end_with_ending_puncs:
print_green(f"is_not_end_with_ending_puncs")
else:
print_red(f"is_end_with_ending_puncs")
if is_not_only_no_meaning_symbols:
print_green(f"is_not_only_no_meaning_symbols")
else:
print_red(f"is_only_no_meaning_symbols")
if is_title_by_len:
print_green(f"is_title_by_len: {is_title_by_len}")
else:
print_red(f"is_not_title_by_len: {is_title_by_len}")
if is_equation:
print_red(f"is_equation")
else:
print_green(f"is_not_equation")
if is_potential_title_font:
print_green(f"is_potential_title_font")
else:
print_red(f"is_not_potential_title_font")
if is_punctuation_heavy:
print_red("is_punctuation_heavy")
else:
print_green("is_not_punctuation_heavy")
if is_bold_font:
print_green(f"is_bold_font")
else:
print_red(f"is_not_bold_font")
if is_font_size_not_less_than_doc_avg:
print_green(f"is_larger_font_than_doc_avg")
else:
print_red(f"is_not_larger_font_than_doc_avg")
if is_much_larger_font_than_doc_avg:
print_green(f"is_much_larger_font_than_doc_avg")
else:
print_red(f"is_not_much_larger_font_than_doc_avg")
if is_not_same_font_type_of_docAvg:
print_green(f"is_not_same_font_type_of_docAvg")
else:
print_red(f"is_same_font_type_of_docAvg")
if is_word_list_line_by_rules:
print_red("is_word_list_line_by_rules")
else:
print_green("is_not_name_list_by_rules")
if is_person_or_org_list_line_by_nlp:
print_red("is_person_or_org_list_line_by_nlp")
else:
print_green("is_not_person_or_org_list_line_by_nlp")
if not is_numbered_title:
print_red("is_not_numbered_title")
else:
print_green("is_numbered_title")
if is_a_left_inline_title:
print_red("is_a_left_inline_title")
else:
print_green("is_not_a_left_inline_title")
if not is_title_by_check_prev_line:
print_red("is_not_title_by_check_prev_line")
else:
print_green("is_title_by_check_prev_line")
if not is_title_by_check_next_line:
print_red("is_not_title_by_check_next_line")
else:
print_green("is_title_by_check_next_line")
if not is_title_by_check_pre_and_next_line:
print_red("is_not_title_by_check_pre_and_next_line")
else:
print_green("is_title_by_check_pre_and_next_line")
# print_green("Common features:")
# print_green("↓" * 10)
# print(f" curr_line_font_type: {curr_line_font_type}")
# print(f" curr_line_font_size: {curr_line_font_size}")
# print()
"""
return is_title, is_author_or_org_list
def _detect_title(self, input_block):
"""
Use the functions 'is_potential_title' to detect titles of each paragraph block.
If a line is a title, then the value of key 'is_title' of the line will be set to True.
"""
raw_lines = input_block["lines"]
prev_line_is_title_flag = False
for i, curr_line in enumerate(raw_lines):
prev_line = raw_lines[i - 1] if i > 0 else None
next_line = raw_lines[i + 1] if i < len(raw_lines) - 1 else None
blk_avg_char_width = input_block["avg_char_width"]
blk_avg_char_height = input_block["avg_char_height"]
blk_media_font_size = input_block["median_font_size"]
is_title, is_author_or_org_list = self._is_potential_title(
curr_line,
prev_line,
prev_line_is_title_flag,
next_line,
blk_avg_char_width,
blk_avg_char_height,
blk_media_font_size,
)
if is_title:
curr_line["is_title"] = is_title
prev_line_is_title_flag = True
else:
curr_line["is_title"] = False
prev_line_is_title_flag = False
# print(f"curr_line['text']: {curr_line['text']}")
# print(f"curr_line['is_title']: {curr_line['is_title']}")
# print(f"prev_line['text']: {prev_line['text'] if prev_line else None}")
# print(f"prev_line_is_title_flag: {prev_line_is_title_flag}")
# print()
if is_author_or_org_list:
curr_line["is_author_or_org_list"] = is_author_or_org_list
else:
curr_line["is_author_or_org_list"] = False
return input_block
def batch_detect_titles(self, pdf_dic):
"""
This function batch process the blocks to detect titles.
Parameters
----------
pdf_dict : dict
result dictionary
Returns
-------
pdf_dict : dict
result dictionary
"""
num_titles = 0
for page_id, blocks in pdf_dic.items():
if page_id.startswith("page_"):
para_blocks = []
if "para_blocks" in blocks.keys():
para_blocks = blocks["para_blocks"]
all_single_line_blocks = []
for block in para_blocks:
if len(block["lines"]) == 1:
all_single_line_blocks.append(block)
new_para_blocks = []
if not len(all_single_line_blocks) == len(para_blocks): # Not all blocks are single line blocks.
for para_block in para_blocks:
new_block = self._detect_title(para_block)
new_para_blocks.append(new_block)
num_titles += sum([line.get("is_title", 0) for line in new_block["lines"]])
else: # All blocks are single line blocks.
for para_block in para_blocks:
new_para_blocks.append(para_block)
num_titles += sum([line.get("is_title", 0) for line in para_block["lines"]])
para_blocks = new_para_blocks
blocks["para_blocks"] = para_blocks
for para_block in para_blocks:
all_titles = all(safe_get(line, "is_title", False) for line in para_block["lines"])
para_text_len = sum([len(line["text"]) for line in para_block["lines"]])
if (
all_titles and para_text_len < 200
): # total length of the paragraph is less than 200, more than this should not be a title
para_block["is_block_title"] = 1
else:
para_block["is_block_title"] = 0
all_name_or_org_list_to_be_removed = all(
safe_get(line, "is_author_or_org_list", False) for line in para_block["lines"]
)
if all_name_or_org_list_to_be_removed and page_id == "page_0":
para_block["is_block_an_author_or_org_list"] = 1
else:
para_block["is_block_an_author_or_org_list"] = 0
pdf_dic["statistics"]["num_titles"] = num_titles
return pdf_dic
def _recog_title_level(self, title_blocks):
"""
This function determines the title level based on the font size of the title.
Parameters
----------
title_blocks : list
Returns
-------
title_blocks : list
"""
font_sizes = np.array([safe_get(tb["block"], "block_font_size", 0) for tb in title_blocks])
# Use the mean and std of font sizes to remove extreme values
mean_font_size = np.mean(font_sizes)
std_font_size = np.std(font_sizes)
min_extreme_font_size = mean_font_size - std_font_size # type: ignore
max_extreme_font_size = mean_font_size + std_font_size # type: ignore
# Compute the threshold for title level
middle_font_sizes = font_sizes[(font_sizes > min_extreme_font_size) & (font_sizes < max_extreme_font_size)]
if middle_font_sizes.size > 0:
middle_mean_font_size = np.mean(middle_font_sizes)
level_threshold = middle_mean_font_size
else:
level_threshold = mean_font_size
for tb in title_blocks:
title_block = tb["block"]
title_font_size = safe_get(title_block, "block_font_size", 0)
current_level = 1 # Initialize title level, the biggest level is 1
# print(f"Before adjustment by font size, {current_level}")
if title_font_size >= max_extreme_font_size:
current_level = 1
elif title_font_size <= min_extreme_font_size:
current_level = 3
elif float(title_font_size) >= float(level_threshold):
current_level = 2
else:
current_level = 3
# print(f"After adjustment by font size, {current_level}")
title_block["block_title_level"] = current_level
return title_blocks
def batch_recog_title_level(self, pdf_dic):
"""
This function batch process the blocks to recognize title level.
Parameters
----------
pdf_dict : dict
result dictionary
Returns
-------
pdf_dict : dict
result dictionary
"""
title_blocks = []
# Collect all titles
for page_id, blocks in pdf_dic.items():
if page_id.startswith("page_"):
para_blocks = blocks.get("para_blocks", [])
for block in para_blocks:
if block.get("is_block_title"):
title_obj = {"page_id": page_id, "block": block}
title_blocks.append(title_obj)
# Determine title level
if title_blocks:
# Determine title level based on font size
title_blocks = self._recog_title_level(title_blocks)
return pdf_dic
class BlockTerminationProcessor:
"""
This class is used to process the block termination.
"""
def __init__(self) -> None:
pass
def _is_consistent_lines(
self,
curr_line,
prev_line,
next_line,
consistent_direction, # 0 for prev, 1 for next, 2 for both
):
"""
This function checks if the line is consistent with its neighbors
Parameters
----------
curr_line : dict
current line
prev_line : dict
previous line
next_line : dict
next line
consistent_direction : int
0 for prev, 1 for next, 2 for both
Returns
-------
bool
True if the line is consistent with its neighbors, False otherwise.
"""
curr_line_font_size = curr_line["spans"][0]["size"]
curr_line_font_type = curr_line["spans"][0]["font"].lower()
if consistent_direction == 0:
if prev_line:
prev_line_font_size = prev_line["spans"][0]["size"]
prev_line_font_type = prev_line["spans"][0]["font"].lower()
return curr_line_font_size == prev_line_font_size and curr_line_font_type == prev_line_font_type
else:
return False
elif consistent_direction == 1:
if next_line:
next_line_font_size = next_line["spans"][0]["size"]
next_line_font_type = next_line["spans"][0]["font"].lower()
return curr_line_font_size == next_line_font_size and curr_line_font_type == next_line_font_type
else:
return False
elif consistent_direction == 2:
if prev_line and next_line:
prev_line_font_size = prev_line["spans"][0]["size"]
prev_line_font_type = prev_line["spans"][0]["font"].lower()
next_line_font_size = next_line["spans"][0]["size"]
next_line_font_type = next_line["spans"][0]["font"].lower()
return (curr_line_font_size == prev_line_font_size and curr_line_font_type == prev_line_font_type) and (
curr_line_font_size == next_line_font_size and curr_line_font_type == next_line_font_type
)
else:
return False
else:
return False
def _is_regular_line(self, curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_width, X0, X1, avg_line_height):
"""
This function checks if the line is a regular line
Parameters
----------
curr_line_bbox : list
bbox of the current line
prev_line_bbox : list
bbox of the previous line
next_line_bbox : list
bbox of the next line
avg_char_width : float
average of char widths
X0 : float
median of x0 values, which represents the left average boundary of the page
X1 : float
median of x1 values, which represents the right average boundary of the page
avg_line_height : float
average of line heights
Returns
-------
bool
True if the line is a regular line, False otherwise.
"""
horizontal_ratio = 0.5
vertical_ratio = 0.5
horizontal_thres = horizontal_ratio * avg_char_width
vertical_thres = vertical_ratio * avg_line_height
x0, y0, x1, y1 = curr_line_bbox
x0_near_X0 = abs(x0 - X0) < horizontal_thres
x1_near_X1 = abs(x1 - X1) < horizontal_thres
prev_line_is_end_of_para = prev_line_bbox and (abs(prev_line_bbox[2] - X1) > avg_char_width)
sufficient_spacing_above = False
if prev_line_bbox:
vertical_spacing_above = y1 - prev_line_bbox[3]
sufficient_spacing_above = vertical_spacing_above > vertical_thres
sufficient_spacing_below = False
if next_line_bbox:
vertical_spacing_below = next_line_bbox[1] - y0
sufficient_spacing_below = vertical_spacing_below > vertical_thres
return (
(sufficient_spacing_above or sufficient_spacing_below)
or (not x0_near_X0 and not x1_near_X1)
or prev_line_is_end_of_para
)
def _is_possible_start_of_para(self, curr_line, prev_line, next_line, X0, X1, avg_char_width, avg_font_size):
"""
This function checks if the line is a possible start of a paragraph
Parameters
----------
curr_line : dict
current line
prev_line : dict
previous line
next_line : dict
next line
X0 : float
median of x0 values, which represents the left average boundary of the page
X1 : float
median of x1 values, which represents the right average boundary of the page
avg_char_width : float
average of char widths
avg_line_height : float
average of line heights
Returns
-------
bool
True if the line is a possible start of a paragraph, False otherwise.
"""
start_confidence = 0.5 # Initial confidence of the line being a start of a paragraph
decision_path = [] # Record the decision path
curr_line_bbox = curr_line["bbox"]
prev_line_bbox = prev_line["bbox"] if prev_line else None
next_line_bbox = next_line["bbox"] if next_line else None
indent_ratio = 1
vertical_ratio = 1.5
vertical_thres = vertical_ratio * avg_font_size
left_horizontal_ratio = 0.5
left_horizontal_thres = left_horizontal_ratio * avg_char_width
right_horizontal_ratio = 2.5
right_horizontal_thres = right_horizontal_ratio * avg_char_width
x0, y0, x1, y1 = curr_line_bbox
indent_condition = x0 > X0 + indent_ratio * avg_char_width
if indent_condition:
start_confidence += 0.2
decision_path.append("indent_condition_met")
x0_near_X0 = abs(x0 - X0) < left_horizontal_thres
if x0_near_X0:
start_confidence += 0.1
decision_path.append("x0_near_X0")
x1_near_X1 = abs(x1 - X1) < right_horizontal_thres
if x1_near_X1:
start_confidence += 0.1
decision_path.append("x1_near_X1")
if prev_line is None:
prev_line_is_end_of_para = True
start_confidence += 0.2
decision_path.append("no_prev_line")
else:
prev_line_is_end_of_para, _, _ = self._is_possible_end_of_para(prev_line, next_line, X0, X1, avg_char_width)
if prev_line_is_end_of_para:
start_confidence += 0.1
decision_path.append("prev_line_is_end_of_para")
sufficient_spacing_above = False
if prev_line_bbox:
vertical_spacing_above = y1 - prev_line_bbox[3]
sufficient_spacing_above = vertical_spacing_above > vertical_thres
if sufficient_spacing_above:
start_confidence += 0.2
decision_path.append("sufficient_spacing_above")
sufficient_spacing_below = False
if next_line_bbox:
vertical_spacing_below = next_line_bbox[1] - y0
sufficient_spacing_below = vertical_spacing_below > vertical_thres
if sufficient_spacing_below:
start_confidence += 0.2
decision_path.append("sufficient_spacing_below")
is_regular_line = self._is_regular_line(
curr_line_bbox, prev_line_bbox, next_line_bbox, avg_char_width, X0, X1, avg_font_size
)
if is_regular_line:
start_confidence += 0.1
decision_path.append("is_regular_line")
is_start_of_para = (
(sufficient_spacing_above or sufficient_spacing_below)
or (indent_condition)
or (not indent_condition and x0_near_X0 and x1_near_X1 and not is_regular_line)
or prev_line_is_end_of_para
)
return (is_start_of_para, start_confidence, decision_path)
def _is_possible_end_of_para(self, curr_line, next_line, X0, X1, avg_char_width):
"""
This function checks if the line is a possible end of a paragraph
Parameters
----------
curr_line : dict
current line
next_line : dict
next line
X0 : float
median of x0 values, which represents the left average boundary of the page
X1 : float
median of x1 values, which represents the right average boundary of the page
avg_char_width : float
average of char widths
Returns
-------
bool
True if the line is a possible end of a paragraph, False otherwise.
"""
end_confidence = 0.5 # Initial confidence of the line being a end of a paragraph
decision_path = [] # Record the decision path
curr_line_bbox = curr_line["bbox"]
next_line_bbox = next_line["bbox"] if next_line else None
left_horizontal_ratio = 0.5
right_horizontal_ratio = 0.5
x0, _, x1, y1 = curr_line_bbox
next_x0, next_y0, _, _ = next_line_bbox if next_line_bbox else (0, 0, 0, 0)
x0_near_X0 = abs(x0 - X0) < left_horizontal_ratio * avg_char_width
if x0_near_X0:
end_confidence += 0.1
decision_path.append("x0_near_X0")
x1_smaller_than_X1 = x1 < X1 - right_horizontal_ratio * avg_char_width
if x1_smaller_than_X1:
end_confidence += 0.1
decision_path.append("x1_smaller_than_X1")
next_line_is_start_of_para = (
next_line_bbox
and (next_x0 > X0 + left_horizontal_ratio * avg_char_width)
and (not is_line_left_aligned_from_neighbors(curr_line_bbox, None, next_line_bbox, avg_char_width, direction=1))
)
if next_line_is_start_of_para:
end_confidence += 0.2
decision_path.append("next_line_is_start_of_para")
is_line_left_aligned_from_neighbors_bool = is_line_left_aligned_from_neighbors(
curr_line_bbox, None, next_line_bbox, avg_char_width
)
if is_line_left_aligned_from_neighbors_bool:
end_confidence += 0.1
decision_path.append("line_is_left_aligned_from_neighbors")
is_line_right_aligned_from_neighbors_bool = is_line_right_aligned_from_neighbors(
curr_line_bbox, None, next_line_bbox, avg_char_width
)
if not is_line_right_aligned_from_neighbors_bool:
end_confidence += 0.1
decision_path.append("line_is_not_right_aligned_from_neighbors")
is_end_of_para = end_with_punctuation(curr_line["text"]) and (
(x0_near_X0 and x1_smaller_than_X1)
or (is_line_left_aligned_from_neighbors_bool and not is_line_right_aligned_from_neighbors_bool)
)
return (is_end_of_para, end_confidence, decision_path)
def _cut_paras_per_block(
self,
block,
):
"""
Processes a raw block from PyMuPDF and returns the processed block.
Parameters
----------
raw_block : dict
A raw block from pymupdf.
Returns
-------
processed_block : dict
"""
def _construct_para(lines, is_block_title, para_title_level):
"""
Construct a paragraph from given lines.
"""
font_sizes = [span["size"] for line in lines for span in line["spans"]]
avg_font_size = sum(font_sizes) / len(font_sizes) if font_sizes else 0
font_colors = [span["color"] for line in lines for span in line["spans"]]
most_common_font_color = max(set(font_colors), key=font_colors.count) if font_colors else None
font_type_lengths = {}
for line in lines:
for span in line["spans"]:
font_type = span["font"]
bbox_width = span["bbox"][2] - span["bbox"][0]
if font_type in font_type_lengths:
font_type_lengths[font_type] += bbox_width
else:
font_type_lengths[font_type] = bbox_width
# get the font type with the longest bbox width
most_common_font_type = max(font_type_lengths, key=font_type_lengths.get) if font_type_lengths else None # type: ignore
para_bbox = calculate_para_bbox(lines)
para_text = " ".join(line["text"] for line in lines)
return {
"para_bbox": para_bbox,
"para_text": para_text,
"para_font_type": most_common_font_type,
"para_font_size": avg_font_size,
"para_font_color": most_common_font_color,
"is_para_title": is_block_title,
"para_title_level": para_title_level,
}
block_bbox = block["bbox"]
block_text = block["text"]
block_lines = block["lines"]
X0 = safe_get(block, "X0", 0)
X1 = safe_get(block, "X1", 0)
avg_char_width = safe_get(block, "avg_char_width", 0)
avg_char_height = safe_get(block, "avg_char_height", 0)
avg_font_size = safe_get(block, "avg_font_size", 0)
is_block_title = safe_get(block, "is_block_title", False)
para_title_level = safe_get(block, "block_title_level", 0)
# Segment into paragraphs
para_ranges = []
in_paragraph = False
start_idx_of_para = None
# Create the processed paragraphs
processed_paras = {}
para_bboxes = []
end_idx_of_para = 0
for line_index, line in enumerate(block_lines):
curr_line = line
prev_line = block_lines[line_index - 1] if line_index > 0 else None
next_line = block_lines[line_index + 1] if line_index < len(block_lines) - 1 else None
"""
Start processing paragraphs.
"""
# Check if the line is the start of a paragraph
is_start_of_para, start_confidence, decision_path = self._is_possible_start_of_para(
curr_line, prev_line, next_line, X0, X1, avg_char_width, avg_font_size
)
if not in_paragraph and is_start_of_para:
in_paragraph = True
start_idx_of_para = line_index
# print_green(">>> Start of a paragraph")
# print(" curr_line_text: ", curr_line["text"])
# print(" start_confidence: ", start_confidence)
# print(" decision_path: ", decision_path)
# Check if the line is the end of a paragraph
is_end_of_para, end_confidence, decision_path = self._is_possible_end_of_para(
curr_line, next_line, X0, X1, avg_char_width
)
if in_paragraph and (is_end_of_para or not next_line):
para_ranges.append((start_idx_of_para, line_index))
start_idx_of_para = None
in_paragraph = False
# print_red(">>> End of a paragraph")
# print(" curr_line_text: ", curr_line["text"])
# print(" end_confidence: ", end_confidence)
# print(" decision_path: ", decision_path)
# Add the last paragraph if it is not added
if in_paragraph and start_idx_of_para is not None:
para_ranges.append((start_idx_of_para, len(block_lines) - 1))
# Process the matched paragraphs
for para_index, (start_idx, end_idx) in enumerate(para_ranges):
matched_lines = block_lines[start_idx : end_idx + 1]
para_properties = _construct_para(matched_lines, is_block_title, para_title_level)
para_key = f"para_{len(processed_paras)}"
processed_paras[para_key] = para_properties
para_bboxes.append(para_properties["para_bbox"])
end_idx_of_para = end_idx + 1
# Deal with the remaining lines
if end_idx_of_para < len(block_lines):
unmatched_lines = block_lines[end_idx_of_para:]
unmatched_properties = _construct_para(unmatched_lines, is_block_title, para_title_level)
unmatched_key = f"para_{len(processed_paras)}"
processed_paras[unmatched_key] = unmatched_properties
para_bboxes.append(unmatched_properties["para_bbox"])
block["paras"] = processed_paras
return block
def batch_process_blocks(self, pdf_dict):
"""
Parses the blocks of all pages.
Parameters
----------
pdf_dict : dict
PDF dictionary.
filter_blocks : list
List of bounding boxes to filter.
Returns
-------
result_dict : dict
Result dictionary.
"""
num_paras = 0
for page_id, page in pdf_dict.items():
if page_id.startswith("page_"):
para_blocks = []
if "para_blocks" in page.keys():
input_blocks = page["para_blocks"]
for input_block in input_blocks:
new_block = self._cut_paras_per_block(input_block)
para_blocks.append(new_block)
num_paras += len(new_block["paras"])
page["para_blocks"] = para_blocks
pdf_dict["statistics"]["num_paras"] = num_paras
return pdf_dict
class BlockContinuationProcessor:
"""
This class is used to process the blocks to detect block continuations.
"""
def __init__(self) -> None:
pass
def __is_similar_font_type(self, font_type_1, font_type_2, prefix_length_ratio=0.3):
"""
This function checks if the two font types are similar.
Definition of similar font types: the two font types have a common prefix,
and the length of the common prefix is at least a certain ratio of the length of the shorter font type.
Parameters
----------
font_type1 : str
font type 1
font_type2 : str
font type 2
prefix_length_ratio : float
minimum ratio of the common prefix length to the length of the shorter font type
Returns
-------
bool
True if the two font types are similar, False otherwise.
"""
if isinstance(font_type_1, list):
font_type_1 = font_type_1[0] if font_type_1 else ""
if isinstance(font_type_2, list):
font_type_2 = font_type_2[0] if font_type_2 else ""
if font_type_1 == font_type_2:
return True
# Find the length of the common prefix
common_prefix_length = len(os.path.commonprefix([font_type_1, font_type_2]))
# Calculate the minimum prefix length based on the ratio
min_prefix_length = int(min(len(font_type_1), len(font_type_2)) * prefix_length_ratio)
return common_prefix_length >= min_prefix_length
def __is_same_block_font(self, block_1, block_2):
"""
This function compares the font of block1 and block2
Parameters
----------
block1 : dict
block1
block2 : dict
block2
Returns
-------
is_same : bool
True if block1 and block2 have the same font, else False
"""
block_1_font_type = safe_get(block_1, "block_font_type", "")
block_1_font_size = safe_get(block_1, "block_font_size", 0)
block_1_avg_char_width = safe_get(block_1, "avg_char_width", 0)
block_2_font_type = safe_get(block_2, "block_font_type", "")
block_2_font_size = safe_get(block_2, "block_font_size", 0)
block_2_avg_char_width = safe_get(block_2, "avg_char_width", 0)
if isinstance(block_1_font_size, list):
block_1_font_size = block_1_font_size[0] if block_1_font_size else 0
if isinstance(block_2_font_size, list):
block_2_font_size = block_2_font_size[0] if block_2_font_size else 0
block_1_text = safe_get(block_1, "text", "")
block_2_text = safe_get(block_2, "text", "")
if block_1_avg_char_width == 0 or block_2_avg_char_width == 0:
return False
if not block_1_text or not block_2_text:
return False
else:
text_len_ratio = len(block_2_text) / len(block_1_text)
if text_len_ratio < 0.2:
avg_char_width_condition = (
abs(block_1_avg_char_width - block_2_avg_char_width) / min(block_1_avg_char_width, block_2_avg_char_width)
< 0.5
)
else:
avg_char_width_condition = (
abs(block_1_avg_char_width - block_2_avg_char_width) / min(block_1_avg_char_width, block_2_avg_char_width)
< 0.2
)
block_font_size_condition = abs(block_1_font_size - block_2_font_size) < 1
return (
self.__is_similar_font_type(block_1_font_type, block_2_font_type)
and avg_char_width_condition
and block_font_size_condition
)
def _is_alphabet_char(self, char):
if (char >= "\u0041" and char <= "\u005a") or (char >= "\u0061" and char <= "\u007a"):
return True
else:
return False
def _is_chinese_char(self, char):
if char >= "\u4e00" and char <= "\u9fa5":
return True
else:
return False
def _is_other_letter_char(self, char):
try:
cat = unicodedata.category(char)
if cat == "Lu" or cat == "Ll":
return not self._is_alphabet_char(char) and not self._is_chinese_char(char)
except TypeError:
print("The input to the function must be a single character.")
return False
def _is_year(self, s: str):
try:
number = int(s)
return 1900 <= number <= 2099
except ValueError:
return False
def _match_brackets(self, text):
# pattern = r"^[\(\)\[\]()【】{}{}<><>〔〕〘〙\"\'“”‘’]"
pattern = r"^[\(\)\]()】{}{}>>〕〙\"\'“”‘’]"
return bool(re.match(pattern, text))
def _is_para_font_consistent(self, para_1, para_2):
"""
This function compares the font of para1 and para2
Parameters
----------
para1 : dict
para1
para2 : dict
para2
Returns
-------
is_same : bool
True if para1 and para2 have the same font, else False
"""
if para_1 is None or para_2 is None:
return False
para_1_font_type = safe_get(para_1, "para_font_type", "")
para_1_font_size = safe_get(para_1, "para_font_size", 0)
para_1_font_color = safe_get(para_1, "para_font_color", "")
para_2_font_type = safe_get(para_2, "para_font_type", "")
para_2_font_size = safe_get(para_2, "para_font_size", 0)
para_2_font_color = safe_get(para_2, "para_font_color", "")
if isinstance(para_1_font_type, list): # get the most common font type
para_1_font_type = max(set(para_1_font_type), key=para_1_font_type.count)
if isinstance(para_2_font_type, list):
para_2_font_type = max(set(para_2_font_type), key=para_2_font_type.count)
if isinstance(para_1_font_size, list): # compute average font type
para_1_font_size = sum(para_1_font_size) / len(para_1_font_size)
if isinstance(para_2_font_size, list): # compute average font type
para_2_font_size = sum(para_2_font_size) / len(para_2_font_size)
return (
self.__is_similar_font_type(para_1_font_type, para_2_font_type)
and abs(para_1_font_size - para_2_font_size) < 1.5
# and para_font_color1 == para_font_color2
)
def _is_para_puncs_consistent(self, para_1, para_2):
"""
This function determines whether para1 and para2 are originally from the same paragraph by checking the puncs of para1(former) and para2(latter)
Parameters
----------
para1 : dict
para1
para2 : dict
para2
Returns
-------
is_same : bool
True if para1 and para2 are from the same paragraph by using the puncs, else False
"""
para_1_text = safe_get(para_1, "para_text", "").strip()
para_2_text = safe_get(para_2, "para_text", "").strip()
para_1_bboxes = safe_get(para_1, "para_bbox", [])
para_1_font_sizes = safe_get(para_1, "para_font_size", 0)
para_2_bboxes = safe_get(para_2, "para_bbox", [])
para_2_font_sizes = safe_get(para_2, "para_font_size", 0)
# print_yellow(" Features of determine puncs_consistent:")
# print(f" para_1_text: {para_1_text}")
# print(f" para_2_text: {para_2_text}")
# print(f" para_1_bboxes: {para_1_bboxes}")
# print(f" para_2_bboxes: {para_2_bboxes}")
# print(f" para_1_font_sizes: {para_1_font_sizes}")
# print(f" para_2_font_sizes: {para_2_font_sizes}")
if is_nested_list(para_1_bboxes):
x0_1, y0_1, x1_1, y1_1 = para_1_bboxes[-1]
else:
x0_1, y0_1, x1_1, y1_1 = para_1_bboxes
if is_nested_list(para_2_bboxes):
x0_2, y0_2, x1_2, y1_2 = para_2_bboxes[0]
para_2_font_sizes = para_2_font_sizes[0] # type: ignore
else:
x0_2, y0_2, x1_2, y1_2 = para_2_bboxes
right_align_threshold = 0.5 * (para_1_font_sizes + para_2_font_sizes) * 0.8
are_two_paras_right_aligned = abs(x1_1 - x1_2) < right_align_threshold
left_indent_threshold = 0.5 * (para_1_font_sizes + para_2_font_sizes) * 0.8
is_para1_left_indent_than_papa2 = x0_1 - x0_2 > left_indent_threshold
is_para2_left_indent_than_papa1 = x0_2 - x0_1 > left_indent_threshold
# Check if either para_text1 or para_text2 is empty
if not para_1_text or not para_2_text:
return False
# Define the end puncs for a sentence to end and hyphen
end_puncs = [".", "?", "!", "。", "?", "!", "…"]
hyphen = ["-", "—"]
# Check if para_text1 ends with either hyphen or non-end punctuation or spaces
para_1_end_with_hyphen = para_1_text and para_1_text[-1] in hyphen
para_1_end_with_end_punc = para_1_text and para_1_text[-1] in end_puncs
para_1_end_with_space = para_1_text and para_1_text[-1] == " "
para_1_not_end_with_end_punc = para_1_text and para_1_text[-1] not in end_puncs
# print_yellow(f" para_1_end_with_hyphen: {para_1_end_with_hyphen}")
# print_yellow(f" para_1_end_with_end_punc: {para_1_end_with_end_punc}")
# print_yellow(f" para_1_not_end_with_end_punc: {para_1_not_end_with_end_punc}")
# print_yellow(f" para_1_end_with_space: {para_1_end_with_space}")
if para_1_end_with_hyphen: # If para_text1 ends with hyphen
# print_red(f"para_1 is end with hyphen.")
para_2_is_consistent = para_2_text and (
para_2_text[0] in hyphen
or (self._is_alphabet_char(para_2_text[0]) and para_2_text[0].islower())
or (self._is_chinese_char(para_2_text[0]))
or (self._is_other_letter_char(para_2_text[0]))
)
if para_2_is_consistent:
# print(f"para_2 is consistent.\n")
return True
else:
# print(f"para_2 is not consistent.\n")
pass
elif para_1_end_with_end_punc: # If para_text1 ends with ending punctuations
# print_red(f"para_1 is end with end_punc.")
para_2_is_consistent = (
para_2_text
and (
para_2_text[0]
== " "
# or (self._is_alphabet_char(para_2_text[0]) and para_2_text[0].isupper())
# or (self._is_chinese_char(para_2_text[0]))
# or (self._is_other_letter_char(para_2_text[0]))
)
and not is_para2_left_indent_than_papa1
)
if para_2_is_consistent:
# print(f"para_2 is consistent.\n")
return True
else:
# print(f"para_2 is not consistent.\n")
pass
elif para_1_not_end_with_end_punc: # If para_text1 is not end with ending punctuations
# print_red(f"para_1 is NOT end with end_punc.")
para_2_is_consistent = para_2_text and (
para_2_text[0] == " "
or (self._is_alphabet_char(para_2_text[0]) and para_2_text[0].islower())
or (self._is_alphabet_char(para_2_text[0]))
or (self._is_year(para_2_text[0:4]))
or (are_two_paras_right_aligned or is_para1_left_indent_than_papa2)
or (self._is_chinese_char(para_2_text[0]))
or (self._is_other_letter_char(para_2_text[0]))
or (self._match_brackets(para_2_text[0]))
)
if para_2_is_consistent:
# print(f"para_2 is consistent.\n")
return True
else:
# print(f"para_2 is not consistent.\n")
pass
elif para_1_end_with_space: # If para_text1 ends with space
# print_red(f"para_1 is end with space.")
para_2_is_consistent = para_2_text and (
para_2_text[0] == " "
or (self._is_alphabet_char(para_2_text[0]) and para_2_text[0].islower())
or (self._is_chinese_char(para_2_text[0]))
or (self._is_other_letter_char(para_2_text[0]))
)
if para_2_is_consistent:
# print(f"para_2 is consistent.\n")
return True
else:
pass
# print(f"para_2 is not consistent.\n")
return False
def _is_block_consistent(self, block_1, block_2):
"""
This function determines whether block1 and block2 are originally from the same block
Parameters
----------
block1 : dict
block1s
block2 : dict
block2
Returns
-------
is_same : bool
True if block1 and block2 are from the same block, else False
"""
return self.__is_same_block_font(block_1, block_2)
def _is_para_continued(self, para_1, para_2):
"""
This function determines whether para1 and para2 are originally from the same paragraph
Parameters
----------
para1 : dict
para1
para2 : dict
para2
Returns
-------
is_same : bool
True if para1 and para2 are from the same paragraph, else False
"""
is_para_font_consistent = self._is_para_font_consistent(para_1, para_2)
is_para_puncs_consistent = self._is_para_puncs_consistent(para_1, para_2)
return is_para_font_consistent and is_para_puncs_consistent
def _are_boundaries_of_block_consistent(self, block_1, block_2):
"""
This function checks if the boundaries of block1 and block2 are consistent
Parameters
----------
block1 : dict
block1
block2 : dict
block2
Returns
-------
is_consistent : bool
True if the boundaries of block1 and block2 are consistent, else False
"""
last_line_of_block_1 = block_1["lines"][-1]
first_line_of_block_2 = block_2["lines"][0]
spans_of_last_line_of_block_1 = last_line_of_block_1["spans"]
spans_of_first_line_of_block_2 = first_line_of_block_2["spans"]
font_type_of_last_line_of_block_1 = spans_of_last_line_of_block_1[0]["font"].lower()
font_size_of_last_line_of_block_1 = spans_of_last_line_of_block_1[0]["size"]
font_color_of_last_line_of_block_1 = spans_of_last_line_of_block_1[0]["color"]
font_flags_of_last_line_of_block_1 = spans_of_last_line_of_block_1[0]["flags"]
font_type_of_first_line_of_block_2 = spans_of_first_line_of_block_2[0]["font"].lower()
font_size_of_first_line_of_block_2 = spans_of_first_line_of_block_2[0]["size"]
font_color_of_first_line_of_block_2 = spans_of_first_line_of_block_2[0]["color"]
font_flags_of_first_line_of_block_2 = spans_of_first_line_of_block_2[0]["flags"]
return (
self.__is_similar_font_type(font_type_of_last_line_of_block_1, font_type_of_first_line_of_block_2)
and abs(font_size_of_last_line_of_block_1 - font_size_of_first_line_of_block_2) < 1
# and font_color_of_last_line_of_block1 == font_color_of_first_line_of_block2
and font_flags_of_last_line_of_block_1 == font_flags_of_first_line_of_block_2
)
def should_merge_next_para(self, curr_para, next_para):
"""
This function checks if the next_para should be merged into the curr_para.
Parameters
----------
curr_para : dict
The current paragraph.
next_para : dict
The next paragraph.
Returns
-------
bool
True if the next_para should be merged into the curr_para, False otherwise.
"""
if self._is_para_continued(curr_para, next_para):
return True
else:
return False
def batch_tag_paras(self, pdf_dict):
"""
This function tags the paragraphs in the pdf_dict.
Parameters
----------
pdf_dict : dict
PDF dictionary.
Returns
-------
pdf_dict : dict
PDF dictionary with tagged paragraphs.
"""
the_last_page_id = len(pdf_dict) - 1
for curr_page_idx, (curr_page_id, curr_page_content) in enumerate(pdf_dict.items()):
if curr_page_id.startswith("page_") and curr_page_content.get("para_blocks", []):
para_blocks_of_curr_page = curr_page_content["para_blocks"]
next_page_idx = curr_page_idx + 1
next_page_id = f"page_{next_page_idx}"
next_page_content = pdf_dict.get(next_page_id, {})
for i, current_block in enumerate(para_blocks_of_curr_page):
for para_id, curr_para in current_block["paras"].items():
curr_para["curr_para_location"] = [
curr_page_idx,
current_block["block_id"],
int(para_id.split("_")[-1]),
]
curr_para["next_para_location"] = None # 默认设置为None
curr_para["merge_next_para"] = False # 默认设置为False
next_block = para_blocks_of_curr_page[i + 1] if i < len(para_blocks_of_curr_page) - 1 else None
if next_block:
curr_block_last_para_key = list(current_block["paras"].keys())[-1]
curr_blk_last_para = current_block["paras"][curr_block_last_para_key]
next_block_first_para_key = list(next_block["paras"].keys())[0]
next_blk_first_para = next_block["paras"][next_block_first_para_key]
if self.should_merge_next_para(curr_blk_last_para, next_blk_first_para):
curr_blk_last_para["next_para_location"] = [
curr_page_idx,
next_block["block_id"],
int(next_block_first_para_key.split("_")[-1]),
]
curr_blk_last_para["merge_next_para"] = True
else:
# Handle the case where the next block is in a different page
curr_block_last_para_key = list(current_block["paras"].keys())[-1]
curr_blk_last_para = current_block["paras"][curr_block_last_para_key]
while not next_page_content.get("para_blocks", []) and next_page_idx <= the_last_page_id:
next_page_idx += 1
next_page_id = f"page_{next_page_idx}"
next_page_content = pdf_dict.get(next_page_id, {})
if next_page_content.get("para_blocks", []):
next_blk_first_para_key = list(next_page_content["para_blocks"][0]["paras"].keys())[0]
next_blk_first_para = next_page_content["para_blocks"][0]["paras"][next_blk_first_para_key]
if self.should_merge_next_para(curr_blk_last_para, next_blk_first_para):
curr_blk_last_para["next_para_location"] = [
next_page_idx,
next_page_content["para_blocks"][0]["block_id"],
int(next_blk_first_para_key.split("_")[-1]),
]
curr_blk_last_para["merge_next_para"] = True
return pdf_dict
def find_block_by_id(self, para_blocks, block_id):
"""
This function finds a block by its id.
Parameters
----------
para_blocks : list
List of blocks.
block_id : int
Id of the block to find.
Returns
-------
block : dict
The block with the given id.
"""
for blk_idx, block in enumerate(para_blocks):
if block.get("block_id") == block_id:
return block
return None
def batch_merge_paras(self, pdf_dict):
"""
This function merges the paragraphs in the pdf_dict.
Parameters
----------
pdf_dict : dict
PDF dictionary.
Returns
-------
pdf_dict : dict
PDF dictionary with merged paragraphs.
"""
for page_id, page_content in pdf_dict.items():
if page_id.startswith("page_") and page_content.get("para_blocks", []):
para_blocks_of_page = page_content["para_blocks"]
for i in range(len(para_blocks_of_page)):
current_block = para_blocks_of_page[i]
paras = current_block["paras"]
for para_id, curr_para in list(paras.items()):
# print(f"current para_id: {para_id}")
# 跳过标题段落
if curr_para.get("is_para_title"):
continue
while curr_para.get("merge_next_para"):
curr_para_location = curr_para.get("curr_para_location")
next_para_location = curr_para.get("next_para_location")
# print(f"curr_para_location: {curr_para_location}, next_para_location: {next_para_location}")
if not next_para_location:
break
if curr_para_location == next_para_location:
# print_red("The next para is in the same block as the current para.")
curr_para["merge_next_para"] = False
break
next_page_idx, next_block_id, next_para_id = next_para_location
next_page_id = f"page_{next_page_idx}"
next_page_content = pdf_dict.get(next_page_id)
if not next_page_content:
break
next_block = self.find_block_by_id(next_page_content.get("para_blocks", []), next_block_id)
if not next_block:
break
next_para = next_block["paras"].get(f"para_{next_para_id}")
if not next_para or next_para.get("is_para_title"):
break
# 合并段落文本
curr_para_text = curr_para.get("para_text", "")
next_para_text = next_para.get("para_text", "")
curr_para["para_text"] = curr_para_text + " " + next_para_text
# 更新 next_para_location
curr_para["next_para_location"] = next_para.get("next_para_location")
# 将下一个段落文本置为空,表示已被合并
next_para["para_text"] = ""
# 更新 merge_next_para 标记
curr_para["merge_next_para"] = next_para.get("merge_next_para", False)
return pdf_dict
class DrawAnnos:
"""
This class draws annotations on the pdf file
----------------------------------------
Color Code
----------------------------------------
Red: (1, 0, 0)
Green: (0, 1, 0)
Blue: (0, 0, 1)
Yellow: (1, 1, 0) - mix of red and green
Cyan: (0, 1, 1) - mix of green and blue
Magenta: (1, 0, 1) - mix of red and blue
White: (1, 1, 1) - red, green and blue full intensity
Black: (0, 0, 0) - no color component whatsoever
Gray: (0.5, 0.5, 0.5) - equal and medium intensity of red, green and blue color components
Orange: (1, 0.65, 0) - maximum intensity of red, medium intensity of green, no blue component
"""
def __init__(self) -> None:
pass
def __is_nested_list(self, lst):
"""
This function returns True if the given list is a nested list of any degree.
"""
if isinstance(lst, list):
return any(self.__is_nested_list(i) for i in lst) or any(isinstance(i, list) for i in lst)
return False
def __valid_rect(self, bbox):
# Ensure that the rectangle is not empty or invalid
if isinstance(bbox[0], list):
return False # It's a nested list, hence it can't be valid rect
else:
return bbox[0] < bbox[2] and bbox[1] < bbox[3]
def __draw_nested_boxes(self, page, nested_bbox, color=(0, 1, 1)):
"""
This function draws the nested boxes
Parameters
----------
page : fitz.Page
page
nested_bbox : list
nested bbox
color : tuple
color, by default (0, 1, 1) # draw with cyan color for combined paragraph
"""
if self.__is_nested_list(nested_bbox): # If it's a nested list
for bbox in nested_bbox:
self.__draw_nested_boxes(page, bbox, color) # Recursively call the function
elif self.__valid_rect(nested_bbox): # If valid rectangle
para_rect = fitz.Rect(nested_bbox)
para_anno = page.add_rect_annot(para_rect)
para_anno.set_colors(stroke=color) # draw with cyan color for combined paragraph
para_anno.set_border(width=1)
para_anno.update()
def draw_annos(self, input_pdf_path, pdf_dic, output_pdf_path):
"""
This function draws annotations on the pdf file.
Parameters
----------
input_pdf_path : str
path to the input pdf file
pdf_dic : dict
pdf dictionary
output_pdf_path : str
path to the output pdf file
pdf_dic : dict
pdf dictionary
"""
pdf_doc = open_pdf(input_pdf_path)
if pdf_dic is None:
pdf_dic = {}
if output_pdf_path is None:
output_pdf_path = input_pdf_path.replace(".pdf", "_anno.pdf")
for page_id, page in enumerate(pdf_doc): # type: ignore
page_key = f"page_{page_id}"
for ele_key, ele_data in pdf_dic[page_key].items():
if ele_key == "para_blocks":
para_blocks = ele_data
for para_block in para_blocks:
if "paras" in para_block.keys():
paras = para_block["paras"]
for para_key, para_content in paras.items():
para_bbox = para_content["para_bbox"]
# print(f"para_bbox: {para_bbox}")
# print(f"is a nested list: {self.__is_nested_list(para_bbox)}")
if self.__is_nested_list(para_bbox) and len(para_bbox) > 1:
color = (0, 1, 1)
self.__draw_nested_boxes(
page, para_bbox, color
) # draw with cyan color for combined paragraph
else:
if self.__valid_rect(para_bbox):
para_rect = fitz.Rect(para_bbox)
para_anno = page.add_rect_annot(para_rect)
para_anno.set_colors(stroke=(0, 1, 0)) # draw with green color for normal paragraph
para_anno.set_border(width=0.5)
para_anno.update()
is_para_title = para_content["is_para_title"]
if is_para_title:
if self.__is_nested_list(para_content["para_bbox"]) and len(para_content["para_bbox"]) > 1:
color = (0, 0, 1)
self.__draw_nested_boxes(
page, para_content["para_bbox"], color
) # draw with cyan color for combined title
else:
if self.__valid_rect(para_content["para_bbox"]):
para_rect = fitz.Rect(para_content["para_bbox"])
if self.__valid_rect(para_content["para_bbox"]):
para_anno = page.add_rect_annot(para_rect)
para_anno.set_colors(stroke=(0, 0, 1)) # draw with blue color for normal title
para_anno.set_border(width=0.5)
para_anno.update()
pdf_doc.save(output_pdf_path)
pdf_doc.close()
class ParaProcessPipeline:
def __init__(self) -> None:
pass
def para_process_pipeline(self, pdf_info_dict, para_debug_mode=None, input_pdf_path=None, output_pdf_path=None):
"""
This function processes the paragraphs, including:
1. Read raw input json file into pdf_dic
2. Detect and replace equations
3. Combine spans into a natural line
4. Check if the paragraphs are inside bboxes passed from "layout_bboxes" key
5. Compute statistics for each block
6. Detect titles in the document
7. Detect paragraphs inside each block
8. Divide the level of the titles
9. Detect and combine paragraphs from different blocks into one paragraph
10. Check whether the final results after checking headings, dividing paragraphs within blocks, and merging paragraphs between blocks are plausible and reasonable.
11. Draw annotations on the pdf file
Parameters
----------
pdf_dic_json_fpath : str
path to the pdf dictionary json file.
Notice: data noises, including overlap blocks, header, footer, watermark, vertical margin note have been removed already.
input_pdf_doc : str
path to the input pdf file
output_pdf_path : str
path to the output pdf file
Returns
-------
pdf_dict : dict
result dictionary
"""
error_info = None
output_json_file = ""
output_dir = ""
if input_pdf_path is not None:
input_pdf_path = os.path.abspath(input_pdf_path)
# print_green_on_red(f">>>>>>>>>>>>>>>>>>> Process the paragraphs of {input_pdf_path}")
if output_pdf_path is not None:
output_dir = os.path.dirname(output_pdf_path)
output_json_file = f"{output_dir}/pdf_dic.json"
def __save_pdf_dic(pdf_dic, output_pdf_path, stage="0", para_debug_mode=para_debug_mode):
"""
Save the pdf_dic to a json file
"""
output_pdf_file_name = os.path.basename(output_pdf_path)
# output_dir = os.path.dirname(output_pdf_path)
output_dir = "\\tmp\\pdf_parse"
output_pdf_file_name = output_pdf_file_name.replace(".pdf", f"_stage_{stage}.json")
pdf_dic_json_fpath = os.path.join(output_dir, output_pdf_file_name)
if not os.path.exists(output_dir):
os.makedirs(output_dir)
if para_debug_mode == "full":
with open(pdf_dic_json_fpath, "w", encoding="utf-8") as f:
json.dump(pdf_dic, f, indent=2, ensure_ascii=False)
# Validate the output already exists
if not os.path.exists(pdf_dic_json_fpath):
print_red(f"Failed to save the pdf_dic to {pdf_dic_json_fpath}")
return None
else:
print_green(f"Succeed to save the pdf_dic to {pdf_dic_json_fpath}")
return pdf_dic_json_fpath
"""
Preprocess the lines of block
"""
# Combine spans into a natural line
rawBlockProcessor = RawBlockProcessor()
pdf_dic = rawBlockProcessor.batch_process_blocks(pdf_info_dict)
# print(f"pdf_dic['page_0']['para_blocks'][0]: {pdf_dic['page_0']['para_blocks'][0]}", end="\n\n")
# Check if the paragraphs are inside bboxes passed from "layout_bboxes" key
layoutFilter = LayoutFilterProcessor()
pdf_dic = layoutFilter.batch_process_blocks(pdf_dic)
# Compute statistics for each block
blockStatisticsCalculator = BlockStatisticsCalculator()
pdf_dic = blockStatisticsCalculator.batch_process_blocks(pdf_dic)
# print(f"pdf_dic['page_0']['para_blocks'][0]: {pdf_dic['page_0']['para_blocks'][0]}", end="\n\n")
# Compute statistics for all blocks(namely this pdf document)
docStatisticsCalculator = DocStatisticsCalculator()
pdf_dic = docStatisticsCalculator.calc_stats_of_doc(pdf_dic)
# print(f"pdf_dic['statistics']: {pdf_dic['statistics']}", end="\n\n")
# Dump the first three stages of pdf_dic to a json file
if para_debug_mode == "full":
pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="0", para_debug_mode=para_debug_mode)
"""
Detect titles in the document
"""
doc_statistics = pdf_dic["statistics"]
titleProcessor = TitleProcessor(doc_statistics)
pdf_dic = titleProcessor.batch_detect_titles(pdf_dic)
if para_debug_mode == "full":
pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="1", para_debug_mode=para_debug_mode)
"""
Detect and divide the level of the titles
"""
titleProcessor = TitleProcessor()
pdf_dic = titleProcessor.batch_recog_title_level(pdf_dic)
if para_debug_mode == "full":
pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="2", para_debug_mode=para_debug_mode)
"""
Detect and split paragraphs inside each block
"""
blockInnerParasProcessor = BlockTerminationProcessor()
pdf_dic = blockInnerParasProcessor.batch_process_blocks(pdf_dic)
if para_debug_mode == "full":
pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="3", para_debug_mode=para_debug_mode)
# pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="3", para_debug_mode="full")
# print_green(f"pdf_dic_json_fpath: {pdf_dic_json_fpath}")
"""
Detect and combine paragraphs from different blocks into one paragraph
"""
blockContinuationProcessor = BlockContinuationProcessor()
pdf_dic = blockContinuationProcessor.batch_tag_paras(pdf_dic)
pdf_dic = blockContinuationProcessor.batch_merge_paras(pdf_dic)
if para_debug_mode == "full":
pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="4", para_debug_mode=para_debug_mode)
# pdf_dic_json_fpath = __save_pdf_dic(pdf_dic, output_pdf_path, stage="4", para_debug_mode="full")
# print_green(f"pdf_dic_json_fpath: {pdf_dic_json_fpath}")
"""
Discard pdf files by checking exceptions and return the error info to the caller
"""
discardByException = DiscardByException()
is_discard_by_single_line_block = discardByException.discard_by_single_line_block(
pdf_dic, exception=DenseSingleLineBlockException()
)
is_discard_by_title_detection = discardByException.discard_by_title_detection(
pdf_dic, exception=TitleDetectionException()
)
is_discard_by_title_level = discardByException.discard_by_title_level(pdf_dic, exception=TitleLevelException())
is_discard_by_split_para = discardByException.discard_by_split_para(pdf_dic, exception=ParaSplitException())
is_discard_by_merge_para = discardByException.discard_by_merge_para(pdf_dic, exception=ParaMergeException())
if is_discard_by_single_line_block is not None:
error_info = is_discard_by_single_line_block
elif is_discard_by_title_detection is not None:
error_info = is_discard_by_title_detection
elif is_discard_by_title_level is not None:
error_info = is_discard_by_title_level
elif is_discard_by_split_para is not None:
error_info = is_discard_by_split_para
elif is_discard_by_merge_para is not None:
error_info = is_discard_by_merge_para
if error_info is not None:
return pdf_dic, error_info
"""
Dump the final pdf_dic to a json file
"""
if para_debug_mode is not None:
with open(output_json_file, "w", encoding="utf-8") as f:
json.dump(pdf_info_dict, f, ensure_ascii=False, indent=4)
"""
Draw the annotations
"""
if para_debug_mode is not None:
drawAnnos = DrawAnnos()
drawAnnos.draw_annos(input_pdf_path, pdf_dic, output_pdf_path)
"""
Remove the intermediate files which are generated in the process of paragraph processing if debug_mode is simple
"""
if para_debug_mode is not None:
for fpath in os.listdir(output_dir):
if fpath.endswith(".json") and "stage" in fpath:
os.remove(os.path.join(output_dir, fpath))
return pdf_dic, error_info
"""
Run this script to test the function with Command:
python detect_para.py [pdf_path] [output_pdf_path]
Params:
- pdf_path: the path of the pdf file
- output_pdf_path: the path of the output pdf file
"""
if __name__ == "__main__":
DEFAULT_PDF_PATH = (
"app/pdf_toolbox/tests/assets/paper/paper.pdf" if os.name != "nt" else "app\\pdf_toolbox\\tests\\assets\\paper\\paper.pdf"
)
input_pdf_path = sys.argv[1] if len(sys.argv) > 1 else DEFAULT_PDF_PATH
output_pdf_path = sys.argv[2] if len(sys.argv) > 2 else input_pdf_path.split(".")[0] + "_recogPara.pdf"
output_json_path = sys.argv[3] if len(sys.argv) > 3 else input_pdf_path.split(".")[0] + "_recogPara.json"
import stat
# Remove existing output file if it exists
if os.path.exists(output_pdf_path):
os.chmod(output_pdf_path, stat.S_IWRITE)
os.remove(output_pdf_path)
input_pdf_doc = open_pdf(input_pdf_path)
# postprocess the paragraphs
paraProcessPipeline = ParaProcessPipeline()
# parse paragraph and save to json file
pdf_dic = {}
blockInnerParasProcessor = BlockTerminationProcessor()
"""
Construct the pdf dictionary.
"""
for page_id, page in enumerate(input_pdf_doc): # type: ignore
# print(f"Processing page {page_id}")
# print(f"page: {page}")
raw_blocks = page.get_text("dict")["blocks"]
# Save text blocks to "preproc_blocks"
preproc_blocks = []
for block in raw_blocks:
if block["type"] == 0:
preproc_blocks.append(block)
layout_bboxes = []
# Construct the pdf dictionary as schema above
page_dict = {
"para_blocks": None,
"preproc_blocks": preproc_blocks,
"images": None,
"tables": None,
"interline_equations": None,
"inline_equations": None,
"layout_bboxes": None,
"pymu_raw_blocks": None,
"global_statistic": None,
"droped_text_block": None,
"droped_image_block": None,
"droped_table_block": None,
"image_backup": None,
"table_backup": None,
}
pdf_dic[f"page_{page_id}"] = page_dict
# print(f"pdf_dic: {pdf_dic}")
with open(output_json_path, "w", encoding="utf-8") as f:
json.dump(pdf_dic, f, ensure_ascii=False, indent=4)
pdf_dic = paraProcessPipeline.para_process_pipeline(output_json_path, input_pdf_doc, output_pdf_path)
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