需要注意的地方:
1.需要将checkpoint文件解压,修改代码中checkpoint目录为正确。
2.需要修改img读取地址
改动的地方:原始代码检测后图像分类是数字号,不能直接可读,如下
修改代码后的结果如下:
修改代码文件visualization.py即可。代码如下:(修改部分被注释包裹,主要是读list,按数字查key值,并显示。注意修改后需要关闭kernel再运行,否则运行结果不是新改动的)
# Copyright 2017 Paul Balanca. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================== import cv2 import random import matplotlib.pyplot as plt import matplotlib.image as mpimg import matplotlib.cm as mpcm # =========================================================================== # # Some colormaps. # =========================================================================== # def colors_subselect(colors, num_classes=21): dt = len(colors) // num_classes sub_colors = [] for i in range(num_classes): color = colors[i*dt] if isinstance(color[0], float): sub_colors.append([int(c * 255) for c in color]) else: sub_colors.append([c for c in color]) return sub_colors colors_plasma = colors_subselect(mpcm.plasma.colors, num_classes=21) colors_tableau = [(255, 255, 255), (31, 119, 180), (174, 199, 232), (255, 127, 14), (255, 187, 120), (44, 160, 44), (152, 223, 138), (214, 39, 40), (255, 152, 150), (148, 103, 189), (197, 176, 213), (140, 86, 75), (196, 156, 148), (227, 119, 194), (247, 182, 210), (127, 127, 127), (199, 199, 199), (188, 189, 34), (219, 219, 141), (23, 190, 207), (158, 218, 229)] # =========================================================================== # # OpenCV drawing. # =========================================================================== # def draw_lines(img, lines, color=[255, 0, 0], thickness=2): """Draw a collection of lines on an image. """ for line in lines: for x1, y1, x2, y2 in line: cv2.line(img, (x1, y1), (x2, y2), color, thickness) def draw_rectangle(img, p1, p2, color=[255, 0, 0], thickness=2): cv2.rectangle(img, p1[::-1], p2[::-1], color, thickness) def draw_bbox(img, bbox, shape, label, color=[255, 0, 0], thickness=2): p1 = (int(bbox[0] * shape[0]), int(bbox[1] * shape[1])) p2 = (int(bbox[2] * shape[0]), int(bbox[3] * shape[1])) cv2.rectangle(img, p1[::-1], p2[::-1], color, thickness) p1 = (p1[0]+15, p1[1]) cv2.putText(img, str(label), p1[::-1], cv2.FONT_HERSHEY_DUPLEX, 0.5, color, 1) def bboxes_draw_on_img(img, classes, scores, bboxes, colors, thickness=2): shape = img.shape for i in range(bboxes.shape[0]): bbox = bboxes[i] color = colors[classes[i]] # Draw bounding box... p1 = (int(bbox[0] * shape[0]), int(bbox[1] * shape[1])) p2 = (int(bbox[2] * shape[0]), int(bbox[3] * shape[1])) cv2.rectangle(img, p1[::-1], p2[::-1], color, thickness) # Draw text... s = '%s/%.3f' % (classes[i], scores[i]) p1 = (p1[0]-5, p1[1]) cv2.putText(img, s, p1[::-1], cv2.FONT_HERSHEY_DUPLEX, 0.4, color, 1) # =========================================================================== # # Matplotlib show... # modifed by wangjc,2017.10.18 # =========================================================================== # def plt_bboxes(img, classes, scores, bboxes, figsize=(10,10), linewidth=1.5): """Visualize bounding boxes. Largely inspired by SSD-MXNET! """ #################added def num2class(n): import tensorflow.models.SSD_Tensorflow_master.datasets.pascalvoc_2007 as pas x=pas.pascalvoc_common.VOC_LABELS.items() for name,item in x: if n in item: #print(name) return name ###########################added fig = plt.figure(figsize=figsize) plt.imshow(img) height = img.shape[0] width = img.shape[1] colors = dict() for i in range(classes.shape[0]): cls_id = int(classes[i]) if cls_id >= 0: score = scores[i] #score = 0.01 if cls_id not in colors: colors[cls_id] = (random.random(), random.random(), random.random()) ymin = int(bboxes[i, 0] * height) xmin = int(bboxes[i, 1] * width) ymax = int(bboxes[i, 2] * height) xmax = int(bboxes[i, 3] * width) rect = plt.Rectangle((xmin, ymin), xmax - xmin, ymax - ymin, fill=False, edgecolor=colors[cls_id], linewidth=linewidth) plt.gca().add_patch(rect) #class_name = str(cls_id) ###################added #class_name = ['haha','a','ss'] class_name = num2class(cls_id) ##################added plt.gca().text(xmin, ymin - 2, '{:s} | {:.3f}'.format(class_name, score), bbox=dict(facecolor=colors[cls_id], alpha=0.5), fontsize=12, color='white') plt.show()
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