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d49958141e
Fixes #22799 Replaces #21559 which was taken as a base Connected PR in contrib: [#3388@contrib](https://github.com/opencv/opencv_contrib/pull/3388) ### Changes OK, now this is more Odometry-related PR than Volume-related. Anyway, * `Volume` class gets wrapped * The same was done for helper classes like `VolumeSettings`, `OdometryFrame` and `OdometrySettings` * `OdometryFrame` constructor signature changed to more convenient where depth goes on 1st place, RGB image on 2nd. This works better for depth-only `Odometry` algorithms. * `OdometryFrame` is checked for amount of pyramid layers inside `Odometry::compute()` * `Odometry` was fully wrapped + more docs added * Added Python tests for `Odometry`, `OdometryFrame` and `Volume` * Added Python sample for `Volume` * Minor fixes including better var names ### Pull Request Readiness Checklist See details at https://github.com/opencv/opencv/wiki/How_to_contribute#making-a-good-pull-request - [x] I agree to contribute to the project under Apache 2 License. - [x] To the best of my knowledge, the proposed patch is not based on a code under GPL or another license that is incompatible with OpenCV - [x] The PR is proposed to the proper branch - [x] There is a reference to the original bug report and related work - [x] There is accuracy test, performance test and test data in opencv_extra repository, if applicable Patch to opencv_extra has the same branch name. - [x] The feature is well documented and sample code can be built with the project CMake
141 lines
4.4 KiB
Python
141 lines
4.4 KiB
Python
import numpy as np
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import cv2 as cv
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import argparse
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# Use source data from this site:
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# https://vision.in.tum.de/data/datasets/rgbd-dataset/download
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# For example if you use rgbd_dataset_freiburg1_xyz sequence, your prompt should be:
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# python /path_to_opencv/samples/python/volume.py --source_folder /path_to_datasets/rgbd_dataset_freiburg1_xyz --algo <some algo>
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# so that the folder contains files groundtruth.txt and depth.txt
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# for more info about this function look cv::Quat::toRotMat3x3(...)
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def quatToMat3(a, b, c, d):
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return np.array([
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[1 - 2 * (c * c + d * d), 2 * (b * c - a * d) , 2 * (b * d + a * c)],
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[2 * (b * c + a * d) , 1 - 2 * (b * b + d * d), 2 * (c * d - a * b)],
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[2 * (b * d - a * c) , 2 * (c * d + a * b) , 1 - 2 * (b * b + c * c)]
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])
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def make_Rt(val):
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R = quatToMat3(val[6], val[3], val[4] ,val[5])
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t = np.array([ [val[0]], [val[1]], [val[2]] ])
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tmp = np.array([0, 0, 0, 1])
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Rt = np.append(R, t , axis=1 )
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Rt = np.vstack([Rt, tmp])
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return Rt
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def get_image_info(path, is_depth):
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image_info = {}
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source = 'depth.txt'
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if not is_depth:
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source = 'rgb.txt'
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with open(path+source) as file:
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lines = file.readlines()
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for line in lines:
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words = line.split(' ')
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if words[0] == '#':
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continue
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image_info[float(words[0])] = words[1][:-1]
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return image_info
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def get_groundtruth_info(path):
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groundtruth_info = {}
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with open(path+'groundtruth.txt') as file:
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lines = file.readlines()
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for line in lines:
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words = line.split(' ')
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if words[0] == '#':
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continue
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groundtruth_info[float(words[0])] = [float(i) for i in words[1:]]
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return groundtruth_info
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def main():
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parser = argparse.ArgumentParser()
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parser.add_argument(
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'--algo',
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help="""TSDF - reconstruct data in volume with bounds,
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HashTSDF - reconstruct data in volume without bounds (infinite volume),
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ColorTSDF - like TSDF but also keeps color data,
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default - runs TSDF""",
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default="")
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parser.add_argument(
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'-src',
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'--source_folder',
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default="")
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args = parser.parse_args()
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path = args.source_folder
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if path[-1] != '/':
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path += '/'
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depth_info = get_image_info(path, True)
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rgb_info = get_image_info(path, False)
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groundtruth_info = get_groundtruth_info(path)
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volume_type = cv.VolumeType_TSDF
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if args.algo == "HashTSDF":
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volume_type = cv.VolumeType_HashTSDF
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elif args.algo == "ColorTSDF":
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volume_type = cv.VolumeType_ColorTSDF
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settings = cv.VolumeSettings(volume_type)
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volume = cv.Volume(volume_type, settings)
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for key in list(depth_info.keys())[:]:
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Rt = np.eye(4)
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for key1 in groundtruth_info:
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if np.abs(key1 - key) < 0.01:
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Rt = make_Rt(groundtruth_info[key1])
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break
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rgb_path = ''
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for key1 in rgb_info:
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if np.abs(key1 - key) < 0.05:
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rgb_path = path + rgb_info[key1]
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break
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depthPath = path + depth_info[key]
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depth = cv.imread(depthPath, cv.IMREAD_ANYDEPTH).astype(np.float32)
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if depth.size <= 0:
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raise Exception('Failed to load depth file: %s' % depthPath)
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rgb = cv.imread(rgb_path, cv.IMREAD_COLOR).astype(np.float32)
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if rgb.size <= 0:
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raise Exception('Failed to load RGB file: %s' % rgb_path)
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if volume_type != cv.VolumeType_ColorTSDF:
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volume.integrate(depth, Rt)
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else:
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volume.integrateColor(depth, rgb, Rt)
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size = (480, 640, 4)
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points = np.zeros(size, np.float32)
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normals = np.zeros(size, np.float32)
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colors = np.zeros(size, np.float32)
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if volume_type != cv.VolumeType_ColorTSDF:
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volume.raycast(Rt, points, normals)
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else:
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volume.raycastColor(Rt, points, normals, colors)
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channels = list(cv.split(points))
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cv.imshow("X", np.absolute(channels[0]))
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cv.imshow("Y", np.absolute(channels[1]))
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cv.imshow("Z", channels[2])
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if volume_type == cv.VolumeType_ColorTSDF:
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cv.imshow("Color", colors.astype(np.uint8))
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#TODO: also display normals
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cv.waitKey(10)
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if __name__ == '__main__':
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main()
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