import random from fastapi import FastAPI, Request, Form, File, UploadFile from fastapi.templating import Jinja2Templates from typing import Dict, List, Optional from sx_utils import web_try import cv2 import numpy as np import base64 from core.predictor import predict_img from core.layout import LayoutBox from sx_utils import format_print app = FastAPI() templates = Jinja2Templates(directory='templates') format_print() colors = [tuple([random.randint(0, 255) for _ in range(3)]) for _ in range(100)] # for bbox plotting model_selection_options = [ 'ocr-layout', 'ocr-layout-paddle' ] clazz_names = [ "code", "logo_hb", "logo_qz", "logo_rain", "logo_stack", "logo_sun", "logo_up", "logo_ys", "style", "table", "text", "title", ] ############################################## # -------------GET Request Routes-------------- ############################################## @app.get("/") def home(request: Request): ''' Returns html jinja2 template render for home page form ''' return templates.TemplateResponse('home.html', { "request": request, "model_selection_options": model_selection_options, }) @app.get("/drag_and_drop_detect") def drag_and_drop_detect(request: Request): ''' drag_and_drop_detect detect page. Uses a drag and drop file interface to upload files to the server, then renders the image + bboxes + labels on HTML canvas. ''' return templates.TemplateResponse('drag_and_drop_detect.html', {"request": request, "model_selection_options": model_selection_options, }) ############################################## # ------------POST Request Routes-------------- ############################################## @app.post("/") def detect_via_web_form(request: Request, file_list: List[UploadFile] = File(...), model_name: str = Form(...), img_size: int = Form(1824), multi_scale: bool = Form(False), ): ''' Requires an image file upload, model name (ex. yolov5s). Optional image size parameter (Default 1824). Intended for human (non-api) users. Returns: HTML template render showing bbox data and base64 encoded image ''' img_batch = [cv2.imdecode(np.fromstring(file.file.read(), np.uint8), cv2.IMREAD_COLOR) for file in file_list] # create a copy that corrects for cv2.imdecode generating BGR images instead of RGB # using cvtColor instead of [...,::-1] to keep array contiguous in RAM img_batch_rgb = [cv2.cvtColor(img, cv2.COLOR_BGR2RGB) for img in img_batch] results = [predict_img(img, model_name, img_size, multi_scale) for img in img_batch_rgb] json_results = boxes_list_to_json(results, clazz_names) img_str_list = [] # plot bboxes on the image for img, bbox_list in zip(img_batch, json_results): for bbox in bbox_list: label = f'{bbox["class_name"]} {bbox["confidence"]:.2f}' plot_one_box(bbox['bbox'], img, label=label, color=colors[int(bbox['class'])], line_thickness=3) img_str_list.append(base64EncodeImage(img)) # escape the apostrophes in the json string representation encoded_json_results = str(json_results).replace("'", r"\'").replace('"', r'\"') return templates.TemplateResponse('show_results.html', { 'request': request, 'bbox_image_data_zipped': zip(img_str_list, json_results), # unzipped in jinja2 template 'bbox_data_str': encoded_json_results, }) @app.post("/detect") @web_try() def detect_via_api(request: Request, file_list: List[UploadFile] = File(...), model_name: str = Form(...), img_size: int = Form(1920), multi_scale: bool = Form(False), download_image: Optional[bool] = Form(False)): ''' Requires an image file upload, model name (ex. yolov5s). Optional image size parameter (Default 1920) Optional download_image parameter that includes base64 encoded image(s) with bbox's drawn in the json response Returns: JSON results of running YOLOv5 on the uploaded image. If download_image parameter is True, images with bboxes drawn are base64 encoded and returned inside the json response. Intended for API usage. ''' img_batch = [cv2.imdecode(np.fromstring(file.file.read(), np.uint8), cv2.IMREAD_COLOR) for file in file_list] # create a copy that corrects for cv2.imdecode generating BGR images instead of RGB, # using cvtColor instead of [...,::-1] to keep array contiguous in RAM # 转换图片格式 img_batch_rgb = [cv2.cvtColor(img, cv2.COLOR_BGR2RGB) for img in img_batch] # 选用相关模型进行模版识别 results = [predict_img(img, model_name, img_size, multi_scale) for img in img_batch_rgb] # 处理结果数据 json_results = boxes_list_to_json(results, clazz_names) # 如果需要下载图片,在图片上绘制框 if download_image: for idx, (img, bbox_list) in enumerate(zip(img_batch, json_results)): for bbox in bbox_list: label = f'{bbox["class_name"]} {bbox["confidence"]:.2f}' plot_one_box(bbox['bbox'], img, label=label, color=colors[int(bbox['class'])], line_thickness=3) payload = {'image_base64': base64EncodeImage(img)} json_results[idx].append(payload) encoded_json_results = str(json_results).replace("'", r'"') return encoded_json_results ############################################## # --------------Helper Functions--------------- ############################################## def results_to_json(results, model): ''' Converts yolo model output to json (list of list of dicts)''' return [ [ { "class": int(pred[5]), "class_name": model.model.names[int(pred[5])], "bbox": [int(x) for x in pred[:4].tolist()], # convert bbox results to int from float "confidence": float(pred[4]), } for pred in result ] for result in results.xyxy ] # 在图像上绘制框 def plot_one_box(x, im, color=(128, 128, 128), label=None, line_thickness=3): # Directly copied from: https://github.com/ultralytics/yolov5/blob/cd540d8625bba8a05329ede3522046ee53eb349d/utils/plots.py # Plots one bounding box on image 'im' using OpenCV assert im.data.contiguous, 'Image not contiguous. Apply np.ascontiguousarray(im) to plot_on_box() input image.' tl = line_thickness or round(0.002 * (im.shape[0] + im.shape[1]) / 2) + 1 # line/font thickness c1, c2 = (int(x[0]), int(x[1])), (int(x[2]), int(x[3])) cv2.rectangle(im, c1, c2, color, thickness=tl, lineType=cv2.LINE_AA) if label: tf = max(tl - 1, 1) # font thickness t_size = cv2.getTextSize(label, 0, fontScale=tl / 3, thickness=tf)[0] c2 = c1[0] + t_size[0], c1[1] - t_size[1] - 3 cv2.rectangle(im, c1, c2, color, -1, cv2.LINE_AA) # filled cv2.putText(im, label, (c1[0], c1[1] - 2), 0, tl / 3, [225, 255, 255], thickness=tf, lineType=cv2.LINE_AA) def base64EncodeImage(img): ''' Takes an input image and returns a base64 encoded string representation of that image (jpg format)''' _, im_arr = cv2.imencode('.jpg', img) im_b64 = base64.b64encode(im_arr.tobytes()).decode('utf-8') return im_b64 def boxes_list_to_json(boxes_list: List[List[LayoutBox]], clazz_names: List[str]) -> List[List[Dict]]: for boxes in boxes_list: for box in boxes: box.clazz_name = clazz_names[box.clazz] return [ [ box.to_service_dict() for box in boxes ] for boxes in boxes_list ] @app.get("/ping", description="健康检查") def ping(): print("->ping") return "pong!"