import asyncio import string import random from collections import Counter from itertools import count, tee import cv2 import matplotlib.pyplot as plt import numpy as np import pandas as pd import streamlit as st import torch from PIL import Image from transformers import DetrImageProcessor, TableTransformerForObjectDetection from paddleocr import PaddleOCR ocr = PaddleOCR(use_angle_cls=True, lang="en",use_gpu=False) st.set_option('deprecation.showPyplotGlobalUse', False) st.set_page_config(layout='wide') st.title("Table Detection and Table Structure Recognition") st.write( "Implemented by MSFT team: https://github.com/microsoft/table-transformer") table_detection_model = TableTransformerForObjectDetection.from_pretrained( "microsoft/table-transformer-detection") table_recognition_model = TableTransformerForObjectDetection.from_pretrained( "microsoft/table-transformer-structure-recognition") def PIL_to_cv(pil_img): return cv2.cvtColor(np.array(pil_img), cv2.COLOR_RGB2BGR) def cv_to_PIL(cv_img): return Image.fromarray(cv2.cvtColor(cv_img, cv2.COLOR_BGR2RGB)) async def pytess(cell_pil_img, threshold: float = 0.5): cell_pil_img = TableExtractionPipeline.add_padding(pil_img=cell_pil_img, top=50, right=30, bottom=50, left=30, color=(255, 255, 255)) result = ocr.ocr(np.asarray(cell_pil_img), cls=True)[0] #Debug # filename = str(random.random()) # cell_pil_img.save("dump/" + filename + ".png") # print(filename) # print(result) text = "" if result != None: txts = [line[1][0] for line in result] text = " ".join(txts) return text def sharpen_image(pil_img): img = PIL_to_cv(pil_img) sharpen_kernel = np.array([[-1, -1, -1], [-1, 9, -1], [-1, -1, -1]]) sharpen = cv2.filter2D(img, -1, sharpen_kernel) pil_img = cv_to_PIL(sharpen) return pil_img def uniquify(seq, suffs=count(1)): """Make all the items unique by adding a suffix (1, 2, etc). Credit: https://stackoverflow.com/questions/30650474/python-rename-duplicates-in-list-with-progressive-numbers-without-sorting-list `seq` is mutable sequence of strings. `suffs` is an optional alternative suffix iterable. """ not_unique = [k for k, v in Counter(seq).items() if v > 1] suff_gens = dict(zip(not_unique, tee(suffs, len(not_unique)))) for idx, s in enumerate(seq): try: suffix = str(next(suff_gens[s])) except KeyError: continue else: seq[idx] += suffix return seq def binarizeBlur_image(pil_img): image = PIL_to_cv(pil_img) thresh = cv2.threshold(image, 150, 255, cv2.THRESH_BINARY_INV)[1] result = cv2.GaussianBlur(thresh, (5, 5), 0) result = 255 - result return cv_to_PIL(result) def td_postprocess(pil_img): ''' Removes gray background from tables ''' img = PIL_to_cv(pil_img) hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV) mask = cv2.inRange(hsv, (0, 0, 100), (255, 5, 255)) # (0, 0, 100), (255, 5, 255) nzmask = cv2.inRange(hsv, (0, 0, 5), (255, 255, 255)) # (0, 0, 5), (255, 255, 255)) nzmask = cv2.erode(nzmask, np.ones((3, 3))) # (3,3) mask = mask & nzmask new_img = img.copy() new_img[np.where(mask)] = 255 return cv_to_PIL(new_img) # def super_res(pil_img): # # requires opencv-contrib-python installed without the opencv-python # sr = dnn_superres.DnnSuperResImpl_create() # image = PIL_to_cv(pil_img) # model_path = "./LapSRN_x8.pb" # model_name = model_path.split('/')[1].split('_')[0].lower() # model_scale = int(model_path.split('/')[1].split('_')[1].split('.')[0][1]) # sr.readModel(model_path) # sr.setModel(model_name, model_scale) # final_img = sr.upsample(image) # final_img = cv_to_PIL(final_img) # return final_img def table_detector(image, THRESHOLD_PROBA): ''' Table detection using DEtect-object TRansformer pre-trained on 1 million tables ''' feature_extractor = DetrImageProcessor(do_resize=True, size=800, max_size=800) encoding = feature_extractor(image, return_tensors="pt") with torch.no_grad(): outputs = table_detection_model(**encoding) probas = outputs.logits.softmax(-1)[0, :, :-1] keep = probas.max(-1).values > THRESHOLD_PROBA target_sizes = torch.tensor(image.size[::-1]).unsqueeze(0) postprocessed_outputs = feature_extractor.post_process( outputs, target_sizes) bboxes_scaled = postprocessed_outputs[0]['boxes'][keep] return (probas[keep], bboxes_scaled) def table_struct_recog(image, THRESHOLD_PROBA): ''' Table structure recognition using DEtect-object TRansformer pre-trained on 1 million tables ''' feature_extractor = DetrImageProcessor(do_resize=True, size=1000, max_size=1000) encoding = feature_extractor(image, return_tensors="pt") with torch.no_grad(): outputs = table_recognition_model(**encoding) probas = outputs.logits.softmax(-1)[0, :, :-1] keep = probas.max(-1).values > THRESHOLD_PROBA target_sizes = torch.tensor(image.size[::-1]).unsqueeze(0) postprocessed_outputs = feature_extractor.post_process( outputs, target_sizes) bboxes_scaled = postprocessed_outputs[0]['boxes'][keep] return (probas[keep], bboxes_scaled) class TableExtractionPipeline(): colors = ["red", "blue", "green", "yellow", "orange", "violet"] # colors = ["red", "blue", "green", "red", "red", "red"] @staticmethod def add_padding(pil_img, top, right, bottom, left, color=(255, 255, 255)): ''' Image padding as part of TSR pre-processing to prevent missing table edges ''' width, height = pil_img.size new_width = width + right + left new_height = height + top + bottom result = Image.new(pil_img.mode, (new_width, new_height), color) result.paste(pil_img, (left, top)) return result def plot_results_detection(self, c1, model, pil_img, prob, boxes, delta_xmin, delta_ymin, delta_xmax, delta_ymax): ''' crop_tables and plot_results_detection must have same co-ord shifts because 1 only plots the other one updates co-ordinates ''' # st.write('img_obj') # st.write(pil_img) plt.imshow(pil_img) ax = plt.gca() for p, (xmin, ymin, xmax, ymax) in zip(prob, boxes.tolist()): cl = p.argmax() xmin, ymin, xmax, ymax = xmin - delta_xmin, ymin - delta_ymin, xmax + delta_xmax, ymax + delta_ymax ax.add_patch( plt.Rectangle((xmin, ymin), xmax - xmin, ymax - ymin, fill=False, color='red', linewidth=3)) text = f'{model.config.id2label[cl.item()]}: {p[cl]:0.2f}' ax.text(xmin - 20, ymin - 50, text, fontsize=10, bbox=dict(facecolor='yellow', alpha=0.5)) plt.axis('off') c1.pyplot() def crop_tables(self, pil_img, prob, boxes, delta_xmin, delta_ymin, delta_xmax, delta_ymax): ''' crop_tables and plot_results_detection must have same co-ord shifts because 1 only plots the other one updates co-ordinates ''' cropped_img_list = [] for p, (xmin, ymin, xmax, ymax) in zip(prob, boxes.tolist()): xmin, ymin, xmax, ymax = xmin - delta_xmin, ymin - delta_ymin, xmax + delta_xmax, ymax + delta_ymax cropped_img = pil_img.crop((xmin, ymin, xmax, ymax)) cropped_img_list.append(cropped_img) return cropped_img_list def generate_structure(self, c2, model, pil_img, prob, boxes, expand_rowcol_bbox_top, expand_rowcol_bbox_bottom): ''' Co-ordinates are adjusted here by 3 'pixels' To plot table pillow image and the TSR bounding boxes on the table ''' # st.write('img_obj') # st.write(pil_img) plt.figure(figsize=(32, 20)) plt.imshow(pil_img) ax = plt.gca() rows = {} cols = {} idx = 0 for p, (xmin, ymin, xmax, ymax) in zip(prob, boxes.tolist()): xmin, ymin, xmax, ymax = xmin, ymin, xmax, ymax cl = p.argmax() class_text = model.config.id2label[cl.item()] text = f'{class_text}: {p[cl]:0.2f}' # or (class_text == 'table column') if (class_text == 'table row') or (class_text == 'table projected row header') or ( class_text == 'table column'): ax.add_patch( plt.Rectangle((xmin, ymin), xmax - xmin, ymax - ymin, fill=False, color=self.colors[cl.item()], linewidth=2)) ax.text(xmin - 10, ymin - 10, text, fontsize=5, bbox=dict(facecolor='yellow', alpha=0.5)) if class_text == 'table row': rows['table row.' + str(idx)] = (xmin, ymin - expand_rowcol_bbox_top, xmax, ymax + expand_rowcol_bbox_bottom) if class_text == 'table column': cols['table column.' + str(idx)] = (xmin, ymin - expand_rowcol_bbox_top, xmax, ymax + expand_rowcol_bbox_bottom) idx += 1 plt.axis('on') c2.pyplot() return rows, cols def sort_table_featuresv2(self, rows: dict, cols: dict): # Sometimes the header and first row overlap, and we need the header bbox not to have first row's bbox inside the headers bbox rows_ = { table_feature: (xmin, ymin, xmax, ymax) for table_feature, ( xmin, ymin, xmax, ymax) in sorted(rows.items(), key=lambda tup: tup[1][1]) } cols_ = { table_feature: (xmin, ymin, xmax, ymax) for table_feature, ( xmin, ymin, xmax, ymax) in sorted(cols.items(), key=lambda tup: tup[1][0]) } return rows_, cols_ def individual_table_featuresv2(self, pil_img, rows: dict, cols: dict): for k, v in rows.items(): xmin, ymin, xmax, ymax = v cropped_img = pil_img.crop((xmin, ymin, xmax, ymax)) rows[k] = xmin, ymin, xmax, ymax, cropped_img for k, v in cols.items(): xmin, ymin, xmax, ymax = v cropped_img = pil_img.crop((xmin, ymin, xmax, ymax)) cols[k] = xmin, ymin, xmax, ymax, cropped_img return rows, cols def object_to_cellsv2(self, master_row: dict, cols: dict, expand_rowcol_bbox_top, expand_rowcol_bbox_bottom, padd_left): '''Removes redundant bbox for rows&columns and divides each row into cells from columns Args: Returns: ''' cells_img = {} header_idx = 0 row_idx = 0 previous_xmax_col = 0 new_cols = {} new_master_row = {} previous_ymin_row = 0 new_cols = cols new_master_row = master_row ## Below 2 for loops remove redundant bounding boxes ### # for k_col, v_col in cols.items(): # xmin_col, _, xmax_col, _, col_img = v_col # if (np.isclose(previous_xmax_col, xmax_col, atol=5)) or (xmin_col >= xmax_col): # print('Found a column with double bbox') # continue # previous_xmax_col = xmax_col # new_cols[k_col] = v_col # for k_row, v_row in master_row.items(): # _, ymin_row, _, ymax_row, row_img = v_row # if (np.isclose(previous_ymin_row, ymin_row, atol=5)) or (ymin_row >= ymax_row): # print('Found a row with double bbox') # continue # previous_ymin_row = ymin_row # new_master_row[k_row] = v_row ###################################################### for k_row, v_row in new_master_row.items(): _, _, _, _, row_img = v_row xmax, ymax = row_img.size xa, ya, xb, yb = 0, 0, 0, ymax row_img_list = [] # plt.imshow(row_img) # st.pyplot() for idx, kv in enumerate(new_cols.items()): k_col, v_col = kv xmin_col, _, xmax_col, _, col_img = v_col xmin_col, xmax_col = xmin_col - padd_left - 10, xmax_col - padd_left xa = xmin_col xb = xmax_col if idx == 0: xa = 0 if idx == len(new_cols) - 1: xb = xmax xa, ya, xb, yb = xa, ya, xb, yb row_img_cropped = row_img.crop((xa, ya, xb, yb)) row_img_list.append(row_img_cropped) cells_img[k_row + '.' + str(row_idx)] = row_img_list row_idx += 1 return cells_img, len(new_cols), len(new_master_row) - 1 def clean_dataframe(self, df): ''' Remove irrelevant symbols that appear with tesseractOCR ''' # df.columns = [col.replace('|', '') for col in df.columns] for col in df.columns: df[col] = df[col].str.replace("'", '', regex=True) df[col] = df[col].str.replace('"', '', regex=True) df[col] = df[col].str.replace(']', '', regex=True) df[col] = df[col].str.replace('[', '', regex=True) df[col] = df[col].str.replace('{', '', regex=True) df[col] = df[col].str.replace('}', '', regex=True) return df @st.cache def convert_df(self, df): return df.to_csv().encode('utf-8') def create_dataframe(self, c3, cell_ocr_res: list, max_cols: int, max_rows: int): '''Create dataframe using list of cell values of the table, also checks for valid header of dataframe Args: cell_ocr_res: list of strings, each element representing a cell in a table max_cols, max_rows: number of columns and rows Returns: dataframe : final dataframe after all pre-processing ''' headers = cell_ocr_res[:max_cols] new_headers = uniquify(headers, (f' {x!s}' for x in string.ascii_lowercase)) counter = 0 cells_list = cell_ocr_res[max_cols:] df = pd.DataFrame("", index=range(0, max_rows), columns=new_headers) cell_idx = 0 for nrows in range(max_rows): for ncols in range(max_cols): df.iat[nrows, ncols] = str(cells_list[cell_idx]) cell_idx += 1 ## To check if there are duplicate headers if result of uniquify+col == col ## This check removes headers when all headers are empty or if median of header word count is less than 6 for x, col in zip(string.ascii_lowercase, new_headers): if f' {x!s}' == col: counter += 1 header_char_count = [len(col) for col in new_headers] # if (counter == len(new_headers)) or (statistics.median(header_char_count) < 6): # st.write('woooot') # df.columns = uniquify(df.iloc[0], (f' {x!s}' for x in string.ascii_lowercase)) # df = df.iloc[1:,:] df = self.clean_dataframe(df) c3.dataframe(df) csv = self.convert_df(df) try: numkey = df.iloc[0, 0] except: numkey = str(0) c3.download_button("Download table", csv, "file.csv", "text/csv", key='download-csv-' + numkey) return df async def start_process(self, image_path: str, TD_THRESHOLD, TSR_THRESHOLD, OCR_THRESHOLD, padd_top, padd_left, padd_bottom, padd_right, delta_xmin, delta_ymin, delta_xmax, delta_ymax, expand_rowcol_bbox_top, expand_rowcol_bbox_bottom): ''' Initiates process of generating pandas dataframes from raw pdf-page images ''' image = Image.open(image_path).convert("RGB") probas, bboxes_scaled = table_detector(image, THRESHOLD_PROBA=TD_THRESHOLD) if bboxes_scaled.nelement() == 0: st.write('No table found in the pdf-page image') return '' # try: # st.write('Document: '+image_path.split('/')[-1]) c1, c2, c3 = st.columns((1, 1, 1)) self.plot_results_detection(c1, table_detection_model, image, probas, bboxes_scaled, delta_xmin, delta_ymin, delta_xmax, delta_ymax) cropped_img_list = self.crop_tables(image, probas, bboxes_scaled, delta_xmin, delta_ymin, delta_xmax, delta_ymax) for idx, unpadded_table in enumerate(cropped_img_list): table = self.add_padding(unpadded_table, padd_top, padd_right, padd_bottom, padd_left) # table = super_res(table) # table = binarizeBlur_image(table) # table = sharpen_image(table) # Test sharpen image next # table = td_postprocess(table) # table.save("result"+str(idx)+".png") probas, bboxes_scaled = table_struct_recog( table, THRESHOLD_PROBA=TSR_THRESHOLD) rows, cols = self.generate_structure(c2, table_recognition_model, table, probas, bboxes_scaled, expand_rowcol_bbox_top, expand_rowcol_bbox_bottom) # st.write(len(rows), len(cols)) rows, cols = self.sort_table_featuresv2(rows, cols) master_row, cols = self.individual_table_featuresv2( table, rows, cols) cells_img, max_cols, max_rows = self.object_to_cellsv2( master_row, cols, expand_rowcol_bbox_top, expand_rowcol_bbox_bottom, padd_left) sequential_cell_img_list = [] for k, img_list in cells_img.items(): for img in img_list: # img = super_res(img) # img = sharpen_image(img) # Test sharpen image next # img = binarizeBlur_image(img) # img = self.add_padding(img, 10,10,10,10) # plt.imshow(img) # c3.pyplot() sequential_cell_img_list.append( pytess(cell_pil_img=img, threshold=OCR_THRESHOLD)) cell_ocr_res = await asyncio.gather(*sequential_cell_img_list) self.create_dataframe(c3, cell_ocr_res, max_cols, max_rows) st.write( 'Errors in OCR is due to either quality of the image or performance of the OCR' ) # except: # st.write('Either incorrectly identified table or no table, to debug remove try/except') # break # break if __name__ == "__main__": img_name = st.file_uploader("Upload an image with table(s)") st1, st2, st3 = st.columns((1, 1, 1)) TD_th = st1.slider('Table detection threshold', 0.0, 1.0, 0.8) TSR_th = st2.slider('Table structure recognition threshold', 0.0, 1.0, 0.7) OCR_th = st3.slider("Text Probs Threshold", 0.0, 1.0, 0.5) st1, st2, st3, st4 = st.columns((1, 1, 1, 1)) padd_top = st1.slider('Padding top', 0, 200, 90) padd_left = st2.slider('Padding left', 0, 200, 40) padd_right = st3.slider('Padding right', 0, 200, 40) padd_bottom = st4.slider('Padding bottom', 0, 200, 90) te = TableExtractionPipeline() # for img in image_list: if img_name is not None: asyncio.run( te.start_process(img_name, TD_THRESHOLD=TD_th, TSR_THRESHOLD=TSR_th, OCR_THRESHOLD=OCR_th, padd_top=padd_top, padd_left=padd_left, padd_bottom=padd_bottom, padd_right=padd_right, delta_xmin=10, # add offset to the left of the table delta_ymin=3, # add offset to the bottom of the table delta_xmax=10, # add offset to the right of the table delta_ymax=3, # add offset to the top of the table expand_rowcol_bbox_top=0, expand_rowcol_bbox_bottom=0))