import os, glob from itertools import groupby import cv2 import numpy as np import gradio as gr import tensorflow as tf def get_samples(): list_ = glob.glob(os.path.join(os.path.dirname(__file__), 'samples/*.jpg')) # sort by name list_.sort(key=lambda x: int(x.split('/')[-1].split('.')[0])) return [[i] for i in list_] def cv2_imread(path): return cv2.imdecode(np.fromfile(path, dtype=np.uint8), cv2.IMREAD_UNCHANGED) def decode_label(mat, chars) -> str: # mat is the output of model # get char indices along best path best_path_indices = np.argmax(mat[0], axis=-1) # collapse best path (using itertools.groupby), map to chars, join char list to string best_chars_collapsed = [chars[k] for k, _ in groupby(best_path_indices) if k != len(chars)] res = ''.join(best_chars_collapsed) # remove space and '_' res = res.replace(' ', '').replace('_', '') return res def center_fit(img, w, h, inter=cv2.INTER_NEAREST, top_left=True): # get img shape img_h, img_w = img.shape[:2] # get ratio ratio = min(w / img_w, h / img_h) if len(img.shape) == 3: inter = cv2.INTER_AREA # resize img img = cv2.resize(img, (int(img_w * ratio), int(img_h * ratio)), interpolation=inter) img = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY) # get new img shape img_h, img_w = img.shape[:2] # get start point start_w = (w - img_w) // 2 start_h = (h - img_h) // 2 if top_left: start_w = 0 start_h = 0 if len(img.shape) == 2: # create new img new_img = np.zeros((h, w), dtype=np.uint8) new_img[start_h:start_h+img_h, start_w:start_w+img_w] = img else: new_img = np.zeros((h, w, 3), dtype=np.uint8) new_img[start_h:start_h+img_h, start_w:start_w+img_w, :] = img return new_img def load_dict(dict_path='label.names'): with open(dict_path, 'r', encoding='utf-8') as f: _dict = f.read().splitlines() _dict = {i: _dict[i] for i in range(len(_dict))} return _dict class TFliteDemo: def __init__(self, model_path, blank=0): self.blank = blank self.interpreter = tf.lite.Interpreter(model_path=model_path) self.interpreter.allocate_tensors() self.inputs = self.interpreter.get_input_details() self.outputs = self.interpreter.get_output_details() def inference(self, x): self.interpreter.set_tensor(self.inputs[0]['index'], x) self.interpreter.invoke() return self.interpreter.get_tensor(self.outputs[0]['index']) def preprocess(self, img): if isinstance(img, str): image = cv2_imread(img) else: # check none if img is None: raise ValueError('img is None') image = img.copy() image = center_fit(image, 192, 96, top_left=True) image = np.reshape(image, (1, *image.shape, 1)).astype(np.float32) / 255.0 return image def get_confidence(self, pred): _argmax = np.argmax(pred, axis=-1) _idx = _argmax != pred.shape[-1] - 1 conf = pred[_idx, _argmax[_idx]] return np.min(np.exp(conf)) def postprocess(self, pred): label = decode_label(pred, load_dict()) conf = self.get_confidence(pred[0]) # keep 4 decimal places conf = float('{:.4f}'.format(conf)) return label, conf def get_results(self, img): img = self.preprocess(img) pred = self.inference(img) return self.postprocess(pred) if __name__ == '__main__': _TITLE = '''South Korean License Plate Recognition''' _DESCRIPTION = '''

This is a demo of South Korean License Plate Recognition.

''' # init model demo = TFliteDemo(os.path.join(os.path.dirname(__file__), 'model.tflite')) app = gr.Interface( fn=demo.get_results, inputs="image", outputs=[ gr.Textbox(label="Plate Number", type="text"), gr.Textbox(label="Confidence", type="text"), ], title=_TITLE, description=_DESCRIPTION, examples=get_samples(), ) app.launch()