64 lines
2.4 KiB
Python
64 lines
2.4 KiB
Python
import tensorflow as tf
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import sys
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import time
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import cv2
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import numpy as np
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import math
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import common
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import config
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import model
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images, labels, labels2=common.read_json('test.json', 5)
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images=np.array(images, dtype=np.float32)/255
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labels=np.array(labels, dtype=np.float32)
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index=np.random.permutation(len(images))
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images=images[index]
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labels=labels[index]
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model=model.model(config.nbr_classes, config.nbr_boxes, config.cellule_y, config.cellule_x)
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checkpoint=tf.train.Checkpoint(model=model)
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checkpoint.restore(tf.train.latest_checkpoint("./training/"))
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grid=np.meshgrid(np.arange(config.cellule_x, dtype=np.float32), np.arange(config.cellule_y, dtype=np.float32))
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grid=np.expand_dims(np.stack(grid, axis=-1), axis=2)
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grid=np.tile(grid, (1, 1, config.nbr_boxes, 1))
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for i in range(len(images)):
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img=common.prepare_image(images[i], labels[i], False)
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predictions=model(np.array([images[i]]))
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pred_boxes=predictions[0, :, :, :, 0:4]
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pred_conf=common.sigmoid(predictions[0, :, :, :, 4])
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pred_classes=common.softmax(predictions[0, :, :, :, 5:])
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ids=np.argmax(pred_classes, axis=-1)
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x_center=((grid[:, :, :, 0]+common.sigmoid(pred_boxes[:, :, :, 0]))*config.r_x)
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y_center=((grid[:, :, :, 1]+common.sigmoid(pred_boxes[:, :, :, 1]))*config.r_y)
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w=(np.exp(pred_boxes[:, :, :, 2])*config.anchors[:, 0]*config.r_x)
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h=(np.exp(pred_boxes[:, :, :, 3])*config.anchors[:, 1]*config.r_y)
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x_min=(x_center-w/2).astype(np.int32)
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y_min=(y_center-h/2).astype(np.int32)
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x_max=(x_center+w/2).astype(np.int32)
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y_max=(y_center+h/2).astype(np.int32)
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tab_boxes=[]
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conf=[]
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for y in range(config.cellule_y):
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for x in range(config.cellule_x):
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for b in range(config.nbr_boxes):
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if pred_conf[y, x, b]>0.10:
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color=list(config.dict.values())[ids[y, x, b]]
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cv2.circle(images[i], (x_center[y, x, b], y_center[y, x, b]), 1, color, 2)
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cv2.rectangle(images[i], (x_min[y, x, b], y_min[y, x, b]), (x_max[y, x, b], y_max[y, x, b]), color, 1)
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cv2.rectangle(images[i], (x_min[y, x, b], y_min[y, x, b]), (x_max[y, x, b], y_min[y, x, b]-15), color, cv2.FILLED)
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cv2.putText(images[i], "{:3.0%}".format(pred_conf[y, x, b]), (x_min[y, x, b], y_min[y, x, b]-5), cv2.FONT_HERSHEY_COMPLEX_SMALL , 0.5, (255, 255, 255), 1)
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cv2.imshow("Inference", images[i])
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cv2.imshow("Bonne reponse", img)
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key=cv2.waitKey()&0xFF
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if key==ord('q'):
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quit()
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