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PaddleOCR / ocr.py

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	#!/usr/bin/env python3
	"""OCR template."""

	from __future__ import annotations

	import logging
	import os
	from enum import Enum
	from pathlib import Path
	from queue import SimpleQueue
	from typing import Any, Final, Iterable, Optional, TypeAlias

	import cv2 as cv2
	import numpy as np
	import numpy.typing as npt
	import pandas as pd # type: ignore
	import pdf2image # type: ignore
	import rerun as rr # pip install rerun-sdk
	import rerun.blueprint as rrb
	from paddleocr import PPStructure # type: ignore
	from paddleocr.ppstructure.recovery.recovery_to_doc import sorted_layout_boxes # type: ignore

	EXAMPLE_DIR: Final = Path(os.path.dirname(__file__))
	DATASET_DIR: Final = EXAMPLE_DIR / "dataset"

	SAMPLE_IMAGE_URLs = ["https://storage.googleapis.com/rerun-example-datasets/ocr/paper.png"]

	PAGE_LIMIT = 10

	LayoutStructure: TypeAlias = tuple[
	list[str], list[str], list[rrb.Spatial2DView], list[rrb.Spatial2DView], list[rrb.Spatial2DView]
	]

	# Supportive Classes


	class Color:
	Red = (255, 0, 0)
	Green = (0, 255, 0)
	Blue = (0, 0, 255)
	Yellow = (255, 255, 0)
	Cyan = (0, 255, 255)
	Magenta = (255, 0, 255)
	Purple = (128, 0, 128)
	Orange = (255, 165, 0)


	"""
	LayoutType:
	Defines an enumeration for different types of document layout elements, each associated with a unique number, name,
	and color. Types:
	- UNKNOWN: Default type for undefined or unrecognized elements, represented by purple.
	- TITLE: Represents the title of a document, represented by red.
	- TEXT: Represents plain text content within the document, represented by green.
	- FIGURE: Represents graphical or image content, represented by blue.
	- FIGURE_CAPTION: Represents captions for figures, represented by yellow.
	- TABLE: Represents tabular data, represented by cyan.
	- TABLE_CAPTION: Represents captions for tables, represented by magenta.
	- REFERENCE: Represents citation references within the document, also represented by purple.
	- Footer: Represents footer of the document, represented as orange.
	"""


	class LayoutType(Enum):
	UNKNOWN = (0, "unknown", Color.Purple)
	TITLE = (1, "title", Color.Red)
	TEXT = (2, "text", Color.Green)
	FIGURE = (3, "figure", Color.Blue)
	FIGURE_CAPTION = (4, "figure_caption", Color.Yellow)
	TABLE = (5, "table", Color.Cyan)
	TABLE_CAPTION = (6, "table_caption", Color.Magenta)
	REFERENCE = (7, "reference", Color.Purple)
	FOOTER = (8, "footer", Color.Orange)

	def __str__(self) -> str:
	return str(self.value[1]) # Returns the string part (type)

	@property
	def number(self) -> int:
	return self.value[0] # Returns the numerical identifier

	@property
	def type(self) -> str:
	return self.value[1] # Returns the type

	@property
	def color(self) -> tuple[int, int, int]:
	return self.value[2] # Returns the color

	@staticmethod
	def get_class_id(text: str) -> int:
	try:
	return LayoutType[text.upper()].number
	except KeyError:
	logging.warning(f"Invalid layout type {text}")
	return 0

	@staticmethod
	def get_type(text: str) -> LayoutType:
	try:
	return LayoutType[text.upper()]
	except KeyError:
	logging.warning(f"Invalid layout type {text}")
	return LayoutType.UNKNOWN

	@classmethod
	def get_annotation(cls) -> list[tuple[int, str, tuple[int, int, int]]]:
	return [(layout.number, layout.type, layout.color) for layout in cls]


	"""
	Layout Class:
	The main purpose of this class is to:
	1. Keep track of the layout types (including type, numbering)
	2. Save the detections for each layout (text, img or table)
	3. Save the bounding box of each detected layout
	4. Generate the recovery text document
	"""


	class Layout:
	def __init__(self, show_unknown: bool = False):
	self.counts = {layout_type: 0 for layout_type in LayoutType}
	self.records: dict[LayoutType, Any] = {layout_type: [] for layout_type in LayoutType}
	self.recovery = """"""
	self.show_unknown = show_unknown

	def add(
	self,
	layout_type: LayoutType,
	bounding_box: list[int],
	detections: Optional[Iterable[dict[str, Any]]] = None,
	table: Optional[str] = None,
	figure: Optional[dict[str, Any]] = None,
	) -> None:
	if layout_type in LayoutType:
	self.counts[layout_type] += 1
	name = f"{layout_type}{self.counts[layout_type]}"
	logging.info(f"Saved layout type {layout_type} with name: {name}")
	self.records[layout_type].append({
	"type": layout_type,
	"name": name,
	"bounding_box": bounding_box,
	"detections": detections,
	"table": table,
	})
	if layout_type != LayoutType.UNKNOWN or self.show_unknown: # Discards the unknown layout types detections
	path = f"recording://Image/{layout_type.type.title()}/{name.title()}"
	self.recovery += f"\n\n## [{name.title()}]({path})\n\n" # Log Type as Heading
	# Enhancement - Logged image for Figure type TODO(#6517)
	if layout_type == LayoutType.TABLE:
	if table:
	self.recovery += table # Log details (table)
	elif detections:
	for index, detection in enumerate(detections):
	path_text = f"recording://Image/{layout_type.type.title()}/{name.title()}/Detections/{index}"
	self.recovery += f' [{detection["text"]}]({path_text})' # Log details (text)
	else:
	logging.warning(f"Invalid layout type detected: {layout_type}")

	def get_count(self, layout_type: LayoutType) -> int:
	if layout_type in LayoutType:
	return self.counts[layout_type]
	else:
	raise ValueError("Invalid layout type")

	def get_records(self) -> dict[LayoutType, list[dict[str, Any]]]:
	return self.records

	def save_all_layouts(self, results: list[dict[str, Any]]) -> None:
	for line in results:
	self.save_layout_data(line)
	for layout_type in LayoutType:
	logging.info(f"Number of detections for type {layout_type}: {self.counts[layout_type]}")

	def save_layout_data(self, line: dict[str, Any]) -> None:
	type = line.get("type", "empty")
	box = line.get("bbox", [0, 0, 0, 0])
	layout_type = LayoutType.get_type(type)
	detections, table, img = [], None, None
	if layout_type == LayoutType.TABLE:
	table = self.get_table_markdown(line)
	elif layout_type == LayoutType.FIGURE:
	detections = self.get_detections(line)
	img = line.get("img") # Currently not in use
	else:
	detections = self.get_detections(line)
	self.add(layout_type, box, detections=detections, table=table, figure=img)

	@staticmethod
	def get_detections(line: dict[str, Any]) -> list[dict[str, Any]]:
	detections = []
	results = line.get("res")
	if results is not None:
	for i, result in enumerate(results):
	text = result.get("text")
	confidence = result.get("confidence")
	box = result.get("text_region")
	x_min, y_min = box[0]
	x_max, y_max = box[2]
	new_box = [x_min, y_min, x_max, y_max]
	detections.append({"id": i, "text": text, "confidence": confidence, "box": new_box})
	return detections

	# Safely attempt to extract the HTML table from the results
	@staticmethod
	def get_table_markdown(line: dict[str, Any]) -> str:
	try:
	html_table = line.get("res", {}).get("html")
	if not html_table:
	return "No table found."

	dataframes = pd.read_html(html_table)
	if not dataframes:
	return "No data extracted from the table."

	markdown_table = dataframes[0].to_markdown()
	return markdown_table # type: ignore[no-any-return]

	except Exception as e:
	return f"Error processing the table: {str(e)}"


	def process_layout_records(log_queue: SimpleQueue[Any], layout: Layout, page_path: str) -> LayoutStructure:
	paths, detections_paths = [], []
	zoom_paths: list[rrb.Spatial2DView] = []
	zoom_paths_figures: list[rrb.Spatial2DView] = []
	zoom_paths_tables: list[rrb.Spatial2DView] = []
	zoom_paths_texts: list[rrb.Spatial2DView] = []

	for layout_type in LayoutType:
	for record in layout.records[layout_type]:
	record_name = record["name"].title()
	record_base_path = f"{page_path}/Image/{layout_type.type.title()}/{record_name}"
	paths.append(f"-{record_base_path}/**")
	detections_paths.append(f"-{record_base_path}/Detections/**")

	# Log bounding box
	log_queue.put([
	"log",
	record_base_path,
	[
	rr.Boxes2D(
	array=record["bounding_box"],
	array_format=rr.Box2DFormat.XYXY,
	labels=[str(layout_type.type)],
	class_ids=[str(layout_type.number)],
	),
	rr.AnyValues(name=record_name),
	],
	])

	log_detections(log_queue, layout_type, record, record_base_path)

	# Prepare zoom path views
	update_zoom_paths(
	layout,
	layout_type,
	record,
	paths,
	page_path,
	zoom_paths,
	zoom_paths_figures,
	zoom_paths_tables,
	zoom_paths_texts,
	)

	return paths, detections_paths, zoom_paths_figures, zoom_paths_tables, zoom_paths_texts


	def log_detections(log_queue: SimpleQueue, layout_type: LayoutType, record: dict[str, Any], page_path: str) -> None:
	if layout_type == LayoutType.TABLE:
	log_queue.put([
	"log",
	f"Extracted{record['name']}",
	[rr.TextDocument(record["table"], media_type=rr.MediaType.MARKDOWN)],
	])
	else:
	for detection in record.get("detections", []):
	log_queue.put([
	"log",
	f"{page_path}/Detections/{detection['id']}",
	[
	rr.Boxes2D(
	array=detection["box"], array_format=rr.Box2DFormat.XYXY, class_ids=[str(layout_type.number)]
	),
	rr.AnyValues(
	DetectionID=detection["id"], Text=detection["text"], Confidence=detection["confidence"]
	),
	],
	])


	def update_zoom_paths(
	layout: Layout,
	layout_type: LayoutType,
	record: dict[str, Any],
	paths: list[str],
	page_path: str,
	zoom_paths: list[rrb.Spatial2DView],
	zoom_paths_figures: list[rrb.Spatial2DView],
	zoom_paths_tables: list[rrb.Spatial2DView],
	zoom_paths_texts: list[rrb.Spatial2DView],
	) -> None:
	if layout_type in [LayoutType.FIGURE, LayoutType.TABLE, LayoutType.TEXT]:
	current_paths = paths.copy()
	current_paths.remove(f"-{page_path}/Image/{layout_type.type.title()}/{record['name'].title()}/**")
	bounds = rrb.VisualBounds2D(
	x_range=[record["bounding_box"][0] - 10, record["bounding_box"][2] + 10],
	y_range=[record["bounding_box"][1] - 10, record["bounding_box"][3] + 10],
	)

	# Add to zoom paths
	view = rrb.Spatial2DView(
	name=record["name"].title(), contents=[f"{page_path}/Image/**"] + current_paths, visual_bounds=bounds
	)
	zoom_paths.append(view)

	# Add to type-specific zoom paths
	if layout_type == LayoutType.FIGURE:
	zoom_paths_figures.append(view)
	elif layout_type == LayoutType.TABLE:
	zoom_paths_tables.append(view)
	elif layout_type != LayoutType.UNKNOWN or layout.show_unknown:
	zoom_paths_texts.append(view)


	def generate_blueprint(
	layouts: list[Layout],
	page_paths: list[str],
	processed_layouts: list[LayoutStructure],
	) -> rrb.Blueprint:
	page_tabs = []
	for layout, (page_path, processed_layout) in zip(layouts, zip(page_paths, processed_layouts)):
	paths, detections_paths, zoom_paths_figures, zoom_paths_tables, zoom_paths_texts = processed_layout

	section_tabs = []
	content_data: dict[str, Any] = {
	"Figures": zoom_paths_figures,
	"Tables": zoom_paths_tables,
	"Texts": zoom_paths_texts,
	}

	for name, paths in content_data.items():
	if paths:
	section_tabs.append(rrb.Tabs(*paths, name=name)) # type: ignore[arg-type]

	page_tabs.append(
	rrb.Vertical(
	rrb.Horizontal(
	rrb.Spatial2DView(
	name="Layout",
	origin=f"{page_path}/Image/",
	contents=[f"{page_path}/Image/**"] + detections_paths,
	),
	rrb.Spatial2DView(name="Detections", contents=[f"{page_path}/Image/**"]),
	rrb.Vertical(
	rrb.TextDocumentView(name="Progress", contents=["progress/**"]),
	rrb.TextDocumentView(name="Recovery", contents=f"{page_path}/Recovery"),
	row_shares=[1, 4]
	)
	),
	rrb.Horizontal(*section_tabs),
	name=page_path,
	row_shares=[4, 3],
	)
	)

	return rrb.Blueprint(
	rrb.Tabs(*page_tabs),
	collapse_panels=True,
	)


	def detect_and_log_layouts(log_queue: SimpleQueue[Any], file_path: str, start_page: int = 1, end_page: int \| None = -1) -> None:
	if end_page == -1:
	end_page = start_page + PAGE_LIMIT-1
	if end_page < start_page:
	end_page = start_page
	print(start_page, end_page)

	images: list[npt.NDArray[np.uint8]] = []
	if file_path.endswith(".pdf"):
	# convert pdf to images
	images.extend(np.array(img, dtype=np.uint8) for img in pdf2image.convert_from_path(file_path, first_page=start_page, last_page=end_page))
	print(len(images))
	if len(images) > PAGE_LIMIT:
	log_queue.put([
	"log",
	"progress",
	[rr.TextDocument(f"Too many pages requsted: {len(images)} requested but the limit is {PAGE_LIMIT}")],
	])
	return
	else:
	# read image
	img = cv2.imread(file_path)
	coloured_image = cv2.cvtColor(img, cv2.COLOR_BGR2RGB)
	images.append(coloured_image.astype(np.uint8))

	# Extracte the layout from each image
	layouts: list[Layout] = []
	page_paths = [f"page_{i + start_page}" for i in range(len(images))]
	processed_layouts: list[LayoutStructure] = []
	for i, (image, page_path) in enumerate(zip(images, page_paths)):
	layouts.append(detect_and_log_layout(log_queue, image, page_path))

	# Generate and send a blueprint based on the detected layouts
	processed_layouts.append(
	process_layout_records(
	log_queue,
	layouts[-1],
	page_path,
	)
	)
	logging.info("Sending blueprint...")
	blueprint = generate_blueprint(layouts, page_paths, processed_layouts)
	log_queue.put(["blueprint", blueprint])
	logging.info("Blueprint sent...")


	def detect_and_log_layout(log_queue: SimpleQueue, coloured_image: npt.NDArray[np.uint8], page_path: str = "") -> Layout:
	# Layout Object - This will contain the detected layouts and their detections
	layout = Layout()

	# Log Image and add Annotation Context
	log_queue.put([
	"log",
	f"{page_path}/Image",
	[rr.Image(coloured_image)],
	])
	log_queue.put([
	"log",
	f"{page_path}/Image",
	# The annotation is defined in the Layout class based on its properties
	[rr.AnnotationContext(LayoutType.get_annotation())],
	{
	"static": True,
	},
	])

	# Paddle Model - Getting Predictions
	logging.info("Start detection... (It usually takes more than 10-20 seconds per page)")
	ocr_model_pp = PPStructure(show_log=False, recovery=True)
	logging.info("model loaded")
	result_pp = ocr_model_pp(coloured_image)
	_, w, _ = coloured_image.shape
	result_pp = sorted_layout_boxes(result_pp, w)
	logging.info("Detection finished...")

	# Add results to the layout
	layout.save_all_layouts(result_pp)
	logging.info("All results are saved...")

	# Recovery Text Document for the detected text
	log_queue.put([
	"log",
	f"{page_path}/Recovery",
	[rr.TextDocument(layout.recovery, media_type=rr.MediaType.MARKDOWN)],
	])

	return layout