基于OpenCV 和 Dlib 进行头部姿态估计

写在前面

工作中遇到，简单整理博文内容涉及基于OpenCV 和 Dlib头部姿态评估的简单Demo理解不足小伙伴帮忙指正

庐山烟雨浙江潮，未到千般恨不消。到得还来别无事，庐山烟雨浙江潮。 ----《庐山烟雨浙江潮》苏轼

/LIRUILONGS/Head-posture-detection-dlib-opencv-.git

实验项目以上传，只需 git 克隆，安装需要的 pytohn 包，就可以开始使用了，但是需要说明的是Dlib的基于HOG特征和SVM分类器的人脸检测器很一般，很多脸都检测不到，实际情况中可以考虑使用深度学习模型来做关键点检测，然后评估姿态。可以查看文章末尾大佬的开源项目

实现效果

步骤

三个主要步骤

人脸检测

人脸检测：引入人脸检测器dlib.get_frontal_face_detector()以检测包含人脸的图片，多个人脸会选择面积最大的人脸。

dlib.get_frontal_face_detector()是dlib库中的一个函数，用于获取一个基于HOG特征和SVM分类器的人脸检测器。该函数返回一个可以用于检测图像中人脸的对象。

具体来说，HOG（Histogram of Oriented Gradients，梯度方向直方图）是一种常用于图像识别中的特征描述子，SVM（Support Vector Machine，支持向量机）是一种常用的分类器。将HOG特征与SVM分类器结合起来，可以得到一个有效的人脸检测器。

在使用dlib.get_frontal_face_detector()函数时，只需将待检测的图像作为参数传入，即可得到一个用于检测人脸的对象。一个Demo

import dlibimport cv2# 读取图像img = cv2.imread('image.jpg')# 获取人脸检测器detector = dlib.get_frontal_face_detector()# 在图像中检测人脸faces = detector(img)# 输出检测到的人脸数print("检测到的人脸数为：", len(faces))

面部特征点检测

面部特征点检测，利用预训练模型shape_predictor_68_face_landmarks.dat以人脸图像为输入，输出68个人脸特征点。

shape_predictor_68_face_landmarks.dat是基于 dlib 库中的人脸特征点检测模型，该模型使用了基于 HOG 特征和 SVM 分类器的人脸检测器来检测图像中的人脸，并使用回归算法来预测人脸的 68 个关键点位置。这些关键点包括眼睛、鼻子、嘴巴等部位，可以用于进行人脸识别、表情识别、姿态估计等应用。

这个模型文件可以在dlib的官方网站上下载。在使用它之前，需要安装dlib库并将模型文件加载到程序中。

predictor = dlib.shape_predictor(r".\shape_predictor_68_face_landmarks.dat")

姿势估计

姿势估计。在获得 68 个面部特征点后，选择部分特征点，通过PnP算法计算姿势Yaw、Pitch、Roll度数

(success, rotation_vector, translation_vector) = cv2.solvePnP(model_points, image_points, camera_matrix,dist_coeffs, flags=cv2.SOLVEPNP_ITERATIVE)

Yaw、Pitch、Roll是用于描述物体或相机在三维空间中的旋转角度的术语，常用于姿态估计和姿态控制中。

Yaw(左右)：绕垂直于物体或相机的轴旋转的角度，也称为偏航角。通常以 z 轴为轴进行旋转，正值表示逆时针旋转，负值表示顺时针旋转。Pitch(上下)：绕物体或相机的横轴旋转的角度，也称为俯仰角。通常以 x 轴为轴进行旋转，正值表示向上旋转，负值表示向下旋转。Roll(弯曲)：绕物体或相机的纵轴旋转的角度，也称为翻滚角。通常以 y 轴为轴进行旋转，正值表示向右旋转，负值表示向左旋转。

这三个角度通常以欧拉角的形式表示，可以用于描述物体或相机的姿态信息。在计算机视觉中，常用于人脸识别、动作捕捉、机器人控制等应用场景。

完整 Demo 代码

#!/usr/bin/env python# -*- encoding: utf-8 -*-"""@File : face_ypr_demo.py@Time : /06/05 21:32:45@Author : Li Ruilong@Version : 1.0@Contact : liruilonger@@Desc : 根据68个人脸关键点，获取人头部姿态评估"""# here put the import libimport cv2import numpy as npimport dlibimport mathimport uuid# 头部姿态检测（dlib+opencv）detector = dlib.get_frontal_face_detector()predictor = dlib.shape_predictor(r".\shape_predictor_68_face_landmarks.dat")POINTS_NUM_LANDMARK = 68# shape_predictor_68_face_landmarks.dat 是一个预训练的人脸关键点检测模型，可以用于识别人脸的68个关键点，如眼睛、鼻子、嘴巴等。这个模型可以被用于人脸识别、人脸表情分析、面部姿势估计等领域。# 它是由dlib库提供的，可以在Python中使用。如果你想使用它，可以在dlib的官方网站上下载。# 获取最大的人脸def _largest_face(dets):"""@Time : /06/05 21:30:37@Author : liruilonger@@Version : 1.0@Desc : 从一个由 dlib 库检测到的人脸框列表中，找到最大的人脸框，并返回该框在列表中的索如果只有一个人脸，直接返回Args:dets： 一个由 `dlib.rectangle` 类型的对象组成的列表，每个对象表示一个人脸框Returns:人脸索引"""# 如果列表长度为1，则直接返回if len(dets) == 1:return 0# 计算每个人脸框的面积face_areas = [(det.right() - det.left()) * (det.bottom() - det.top()) for det in dets]import heapq# 找到面积最大的人脸框的索引largest_area = face_areas[0]largest_index = 0for index in range(1, len(dets)):if face_areas[index] > largest_area:largest_index = indexlargest_area = face_areas[index]# 打印最大人脸框的索引和总人脸数print("largest_face index is {} in {} faces".format(largest_index, len(dets)))return largest_indexdef get_image_points_from_landmark_shape(landmark_shape):"""@Time : /06/05 22:30:02@Author : liruilonger@@Version : 1.0@Desc : 从dlib的检测结果抽取姿态估计需要的点坐标Args:landmark_shape: 所有的位置点Returns:void"""if landmark_shape.num_parts != POINTS_NUM_LANDMARK:print("ERROR:landmark_shape.num_parts-{}".format(landmark_shape.num_parts))return -1, None# 2D image points. If you change the image, you need to change vectorimage_points = np.array([(landmark_shape.part(17).x, landmark_shape.part(17).y), # 17 left brow left corner(landmark_shape.part(21).x, landmark_shape.part(21).y), # 21 left brow right corner(landmark_shape.part(22).x, landmark_shape.part(22).y), # 22 right brow left corner(landmark_shape.part(26).x, landmark_shape.part(26).y), # 26 right brow right corner(landmark_shape.part(36).x, landmark_shape.part(36).y), # 36 left eye left corner(landmark_shape.part(39).x, landmark_shape.part(39).y), # 39 left eye right corner(landmark_shape.part(42).x, landmark_shape.part(42).y), # 42 right eye left corner(landmark_shape.part(45).x, landmark_shape.part(45).y), # 45 right eye right corner(landmark_shape.part(31).x, landmark_shape.part(31).y), # 31 nose left corner(landmark_shape.part(35).x, landmark_shape.part(35).y), # 35 nose right corner(landmark_shape.part(48).x, landmark_shape.part(48).y), # 48 mouth left corner(landmark_shape.part(54).x, landmark_shape.part(54).y), # 54 mouth right corner(landmark_shape.part(57).x, landmark_shape.part(57).y), # 57 mouth central bottom corner(landmark_shape.part(8).x, landmark_shape.part(8).y), # 8 chin corner], dtype="double")return 0, image_pointsdef get_image_points(img):"""@Time : /06/05 22:30:43@Author : liruilonger@@Version : 1.0@Desc : 用dlib检测关键点，返回姿态估计需要的几个点坐标Args:Returns:void"""gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY) # 图片调整为灰色dets = detector(img, 0)if 0 == len(dets):print("ERROR: found no face")return -1, Nonelargest_index = _largest_face(dets)face_rectangle = dets[largest_index]landmark_shape = predictor(img, face_rectangle)draw = im.copy()cv2.circle(draw, (landmark_shape.part(0).x, landmark_shape.part(0).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(1).x, landmark_shape.part(1).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(2).x, landmark_shape.part(2).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(3).x, landmark_shape.part(3).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(4).x, landmark_shape.part(4).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(5).x, landmark_shape.part(5).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(6).x, landmark_shape.part(6).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(7).x, landmark_shape.part(7).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(8).x, landmark_shape.part(8).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(9).x, landmark_shape.part(9).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(10).x, landmark_shape.part(10).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(11).x, landmark_shape.part(11).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(12).x, landmark_shape.part(12).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(13).x, landmark_shape.part(13).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(14).x, landmark_shape.part(14).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(15).x, landmark_shape.part(15).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(16).x, landmark_shape.part(16).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(17).x, landmark_shape.part(17).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(18).x, landmark_shape.part(18).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(19).x, landmark_shape.part(19).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(20).x, landmark_shape.part(20).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(21).x, landmark_shape.part(21).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(22).x, landmark_shape.part(22).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(23).x, landmark_shape.part(23).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(24).x, landmark_shape.part(24).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(25).x, landmark_shape.part(25).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(26).x, landmark_shape.part(26).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(27).x, landmark_shape.part(27).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(28).x, landmark_shape.part(28).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(29).x, landmark_shape.part(29).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(30).x, landmark_shape.part(30).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(31).x, landmark_shape.part(31).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(32).x, landmark_shape.part(32).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(33).x, landmark_shape.part(33).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(34).x, landmark_shape.part(34).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(35).x, landmark_shape.part(35).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(36).x, landmark_shape.part(36).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(37).x, landmark_shape.part(37).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(38).x, landmark_shape.part(38).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(39).x, landmark_shape.part(39).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(40).x, landmark_shape.part(40).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(41).x, landmark_shape.part(41).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(42).x, landmark_shape.part(42).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(43).x, landmark_shape.part(43).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(44).x, landmark_shape.part(44).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(45).x, landmark_shape.part(45).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(46).x, landmark_shape.part(46).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(47).x, landmark_shape.part(47).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(48).x, landmark_shape.part(48).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(49).x, landmark_shape.part(49).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(50).x, landmark_shape.part(50).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(51).x, landmark_shape.part(51).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(52).x, landmark_shape.part(52).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(53).x, landmark_shape.part(53).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(54).x, landmark_shape.part(54).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(55).x, landmark_shape.part(55).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(56).x, landmark_shape.part(56).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(57).x, landmark_shape.part(57).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(58).x, landmark_shape.part(58).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(59).x, landmark_shape.part(59).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(60).x, landmark_shape.part(60).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(61).x, landmark_shape.part(61).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(62).x, landmark_shape.part(62).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(63).x, landmark_shape.part(63).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(64).x, landmark_shape.part(64).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(65).x, landmark_shape.part(65).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(66).x, landmark_shape.part(66).y), 2, (0, 255, 0), -1)cv2.circle(draw, (landmark_shape.part(67).x, landmark_shape.part(67).y), 2, (0, 255, 0), -1)# 部分关键点特殊标记cv2.circle(draw, (landmark_shape.part(17).x, landmark_shape.part(17).y), 2, (0, 165, 255),-1) # 17 left brow left cornercv2.circle(draw, (landmark_shape.part(21).x, landmark_shape.part(21).y), 2, (0, 165, 255),-1) # 21 left brow right cornercv2.circle(draw, (landmark_shape.part(22).x, landmark_shape.part(22).y), 2, (0, 165, 255),-1) # 22 right brow left cornercv2.circle(draw, (landmark_shape.part(26).x, landmark_shape.part(26).y), 2, (0, 165, 255),-1) # 26 right brow right cornercv2.circle(draw, (landmark_shape.part(36).x, landmark_shape.part(36).y), 2, (0, 165, 255),-1) # 36 left eye left cornercv2.circle(draw, (landmark_shape.part(39).x, landmark_shape.part(39).y), 2, (0, 165, 255),-1) # 39 left eye right cornercv2.circle(draw, (landmark_shape.part(42).x, landmark_shape.part(42).y), 2, (0, 165, 255),-1) # 42 right eye left cornercv2.circle(draw, (landmark_shape.part(45).x, landmark_shape.part(45).y), 2, (0, 165, 255),-1) # 45 right eye right cornercv2.circle(draw, (landmark_shape.part(31).x, landmark_shape.part(31).y), 2, (0, 165, 255),-1) # 31 nose left cornercv2.circle(draw, (landmark_shape.part(35).x, landmark_shape.part(35).y), 2, (0, 165, 255),-1) # 35 nose right cornercv2.circle(draw, (landmark_shape.part(48).x, landmark_shape.part(48).y), 2, (0, 165, 255),-1) # 48 mouth left cornercv2.circle(draw, (landmark_shape.part(54).x, landmark_shape.part(54).y), 2, (0, 165, 255),-1) # 54 mouth right cornercv2.circle(draw, (landmark_shape.part(57).x, landmark_shape.part(57).y), 2, (0, 165, 255),-1) # 57 mouth central bottom cornercv2.circle(draw, (landmark_shape.part(8).x, landmark_shape.part(8).y), 2, (0, 165, 255), -1)# 保存关键点标记后的图片cv2.imwrite('new_' + "KeyPointDetection.jpg", draw)return get_image_points_from_landmark_shape(landmark_shape)def get_pose_estimation(img_size, image_points):"""@Time : /06/05 22:31:31@Author : liruilonger@@Version : 1.0@Desc : 获取旋转向量和平移向量Args:Returns:void"""# 3D model points.model_points = np.array([(6.825897, 6.760612, 4.402142), # 33 left brow left corner(1.330353, 7.122144, 6.903745), # 29 left brow right corner(-1.330353, 7.122144, 6.903745), # 34 right brow left corner(-6.825897, 6.760612, 4.402142), # 38 right brow right corner(5.311432, 5.485328, 3.987654), # 13 left eye left corner(1.789930, 5.393625, 4.413414), # 17 left eye right corner(-1.789930, 5.393625, 4.413414), # 25 right eye left corner(-5.311432, 5.485328, 3.987654), # 21 right eye right corner(2.005628, 1.409845, 6.165652), # 55 nose left corner(-2.005628, 1.409845, 6.165652), # 49 nose right corner(2.774015, -2.080775, 5.048531), # 43 mouth left corner(-2.774015, -2.080775, 5.048531), # 39 mouth right corner(0.000000, -3.116408, 6.097667), # 45 mouth central bottom corner(0.000000, -7.415691, 4.070434) # 6 chin corner])# Camera internalsfocal_length = img_size[1]center = (img_size[1] / 2, img_size[0] / 2)camera_matrix = np.array([[focal_length, 0, center[0]],[0, focal_length, center[1]],[0, 0, 1]], dtype="double")dist_coeffs = np.array([7.0834633684407095e-002, 6.9140193737175351e-002, 0.0, 0.0, -1.3073460323689292e+000],dtype="double") # Assuming no lens distortion(success, rotation_vector, translation_vector) = cv2.solvePnP(model_points, image_points, camera_matrix,dist_coeffs, flags=cv2.SOLVEPNP_ITERATIVE)# print("Rotation Vector:\n {}".format(rotation_vector))# print("Translation Vector:\n {}".format(translation_vector))return success, rotation_vector, translation_vector, camera_matrix, dist_coeffsdef draw_annotation_box(image, rotation_vector, translation_vector, camera_matrix, dist_coeefs, color=(0, 255, 0),line_width=2):"""@Time : /06/05 22:09:14@Author : liruilonger@@Version : 1.0@Desc : 标记一个人脸朝向的3D框Args:Returns:void""""""Draw a 3D box as annotation of pose"""point_3d = []rear_size = 10rear_depth = 0point_3d.append((-rear_size, -rear_size, rear_depth))point_3d.append((-rear_size, rear_size, rear_depth))point_3d.append((rear_size, rear_size, rear_depth))point_3d.append((rear_size, -rear_size, rear_depth))point_3d.append((-rear_size, -rear_size, rear_depth))front_size = 10# 高度front_depth = 10point_3d.append((-front_size, -front_size, front_depth))point_3d.append((-front_size, front_size, front_depth))point_3d.append((front_size, front_size, front_depth))point_3d.append((front_size, -front_size, front_depth))point_3d.append((-front_size, -front_size, front_depth))point_3d = np.array(point_3d, dtype=np.float32).reshape(-1, 3)# Map to 2d image points(point_2d, _) = cv2.projectPoints(point_3d,rotation_vector,translation_vector,camera_matrix,dist_coeefs)point_2d = np.int32(point_2d.reshape(-1, 2))# Draw all the linescv2.polylines(image, [point_2d], True, color, line_width, cv2.LINE_AA)cv2.line(image, tuple(point_2d[1]), tuple(point_2d[6]), color, line_width, cv2.LINE_AA)cv2.line(image, tuple(point_2d[2]), tuple(point_2d[7]), color, line_width, cv2.LINE_AA)cv2.line(image, tuple(point_2d[3]), tuple(point_2d[8]), color, line_width, cv2.LINE_AA)# 从旋转向量转换为欧拉角def get_euler_angle(rotation_vector):"""@Time : /06/05 22:31:52@Author : liruilonger@@Version : 1.0@Desc : 从旋转向量转换为欧拉角Args:Returns:void"""# calculate rotation anglestheta = cv2.norm(rotation_vector, cv2.NORM_L2)# transformed to quaterniondw = math.cos(theta / 2)x = math.sin(theta / 2) * rotation_vector[0][0] / thetay = math.sin(theta / 2) * rotation_vector[1][0] / thetaz = math.sin(theta / 2) * rotation_vector[2][0] / thetaysqr = y * y# pitch (x-axis rotation)t0 = 2.0 * (w * x + y * z)t1 = 1.0 - 2.0 * (x * x + ysqr)# print('t0:{}, t1:{}'.format(t0, t1))pitch = math.atan2(t0, t1)# yaw (y-axis rotation)t2 = 2.0 * (w * y - z * x)if t2 > 1.0:t2 = 1.0if t2 < -1.0:t2 = -1.0yaw = math.asin(t2)# roll (z-axis rotation)t3 = 2.0 * (w * z + x * y)t4 = 1.0 - 2.0 * (ysqr + z * z)roll = math.atan2(t3, t4)print('pitch:{}, yaw:{}, roll:{}'.format(pitch, yaw, roll))# 单位转换：将弧度转换为度pitch_degree = int((pitch / math.pi) * 180)yaw_degree = int((yaw / math.pi) * 180)roll_degree = int((roll / math.pi) * 180)return 0, pitch, yaw, roll, pitch_degree, yaw_degree, roll_degreedef get_pose_estimation_in_euler_angle(landmark_shape, im_szie):try:ret, image_points = get_image_points_from_landmark_shape(landmark_shape)if ret != 0:print('get_image_points failed')return -1, None, None, Noneret, rotation_vector, translation_vector, camera_matrix, dist_coeffs = get_pose_estimation(im_szie,image_points)if ret != True:print('get_pose_estimation failed')return -1, None, None, Noneret, pitch, yaw, roll = get_euler_angle(rotation_vector)if ret != 0:print('get_euler_angle failed')return -1, None, None, Noneeuler_angle_str = 'Pitch:{}, Yaw:{}, Roll:{}'.format(pitch, yaw, roll)print(euler_angle_str)return 0, pitch, yaw, rollexcept Exception as e:print('get_pose_estimation_in_euler_angle exception:{}'.format(e))return -1, None, None, Nonedef build_img_text_marge(img_, text, height):"""@Time : /06/01 05:29:09@Author : liruilonger@@Version : 1.0@Desc : 生成文字图片拼接到 img 对象Args:Returns:void"""import cv2from PIL import Image, ImageDraw, ImageFont# 定义图片大小和背景颜色width = img_.shape[1]background_color = (255, 255, 255)# 定义字体、字号和颜色font_path = 'arial.ttf'font_size = 26font_color = (0, 0, 0)# 创建空白图片image = Image.new('RGB', (width, height), background_color)# 创建画笔draw = ImageDraw.Draw(image)# 加载字体font = ImageFont.truetype(font_path, font_size)# 写入文字text_width, text_height = draw.textsize(text, font)text_x = (width - text_width) // 2text_y = (height - text_height) // 2draw.text((text_x, text_y), text, font=font, fill=font_color)# 将Pillow图片转换为OpenCV图片image_cv = cv2.cvtColor(np.array(image), cv2.COLOR_RGB2BGR)montage_size = (width, img_.shape[0])import imutilsmontages = imutils.build_montages([img_, image_cv], montage_size, (1, 2))# 保存图片return montages[0]if __name__ == '__main__':from imutils import paths# for imagePath in paths.list_images("W:\\python_code\\deepface\\huge_1.jpg"):for imagePath in range(1):print(f"处理的图片路径为： {imagePath}")# Read Imageim = cv2.imread("image.jpg")size = im.shape# 对图像进行缩放的操作if size[0] > 700:h = size[0] / 3w = size[1] / 3# 如果图像的高度大于700，就将其高度和宽度分别缩小为原来的1/3，然后使用双三次插值的方法进行缩放。最后返回缩放后的图像的大小。im = cv2.resize(im, (int(w), int(h)), interpolation=cv2.INTER_CUBIC)size = im.shape# 获取坐标点 ret, image_points = get_image_points(im)if ret != 0:print('get_image_points failed')continueret, rotation_vector, translation_vector, camera_matrix, dist_coeffs = get_pose_estimation(size, image_points)if ret != True:print('get_pose_estimation failed')continuedraw_annotation_box(im, rotation_vector, translation_vector, camera_matrix, dist_coeffs)cv2.imwrite('new_' + "draw_annotation_box.jpg", im)ret, pitch, yaw, roll, pitch_degree, yaw_degree, roll_degree = get_euler_angle(rotation_vector)draw = im.copy()# Yaw:if yaw_degree < 0:output_yaw = "left : " + str(abs(yaw_degree)) + " degrees"elif yaw_degree > 0:output_yaw = "right :" + str(abs(yaw_degree)) + " degrees"else:output_yaw = "No left or right"print(output_yaw)# Pitch:if pitch_degree > 0:output_pitch = "dow :" + str(abs(pitch_degree)) + " degrees"elif pitch_degree < 0:output_pitch = "up :" + str(abs(pitch_degree)) + " degrees"else:output_pitch = "No downwards or upwards"print(output_pitch)# Roll:if roll_degree < 0:output_roll = "bends to the right: " + str(abs(roll_degree)) + " degrees"elif roll_degree > 0:output_roll = "bends to the left: " + str(abs(roll_degree)) + " degrees"else:output_roll = "No bend right or left."print(output_roll)# Initial status:if abs(yaw) < 0.00001 and abs(pitch) < 0.00001 and abs(roll) < 0.00001:cv2.putText(draw, "Initial ststus", (20, 40), cv2.FONT_HERSHEY_SIMPLEX, .5, (0, 255, 0))print("Initial ststus")# 姿态检测完的数据写在对应的照片imgss = build_img_text_marge(im, output_yaw + "\n" + output_pitch + "\n" + output_roll, 200)cv2.imwrite('new_' + str(uuid.uuid4()).replace('-', '') + ".jpg", imgss)

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