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depth generator moved from main repo to extra
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@ -1,3 +0,0 @@
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numpy>=1.17.4
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scipy>=1.3.3
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PIL>=7.0.0
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import numpy as np
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from scipy.spatial.transform import Rotation
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from PIL import Image
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import os
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depthFactor = 5000
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psize = (640, 480)
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fx = 525.0
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fy = 525.0
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cx = psize[0]/2-0.5
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cy = psize[1]/2-0.5
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K = np.array([[fx, 0, cx],
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[ 0, fy, cy],
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[ 0, 0, 1]])
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# some random transform
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rmat = Rotation.from_rotvec(np.array([0.1, 0.2, 0.3])).as_dcm()
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tmat = np.array([[-0.04, 0.05, 0.6]]).T
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rtmat = np.vstack((np.hstack((rmat, tmat)), np.array([[0, 0, 0, 1]])))
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testDataPath = os.getenv("OPENCV_TEST_DATA_PATH", default=None)
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srcDepth = np.asarray(Image.open(testDataPath + "/cv/rgbd/depth.png"))
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srcRgb = np.asarray(Image.open(testDataPath + "/cv/rgbd/rgb.png"))
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def reproject(image, df, K):
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Kinv = np.linalg.inv(K)
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xsz, ysz = image.shape[1], image.shape[0]
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reprojected = np.zeros((ysz, xsz, 3))
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for y in range(ysz):
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for x in range(xsz):
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z = image[y, x]/df
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v = Kinv @ np.array([x*z, y*z, z]).T
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#xv = (x - cx)/fx * z
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#yv = (y - cy)/fy * z
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#zv = z
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reprojected[y, x, :] = v[:]
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return reprojected
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def reprojectRtProject(image, K, depthFactor, rmat, tmat):
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Kinv = np.linalg.inv(K)
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xsz, ysz = image.shape[1], image.shape[0]
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projected = np.zeros((ysz, xsz, 3))
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for y in range(ysz):
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for x in range(xsz):
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z = image[y, x]/depthFactor
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v = K @ (rmat @ Kinv @ np.array([x*z, y*z, z]).T + tmat[:, 0])
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if z > 0:
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projected[y, x, :] = v[:]
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return projected
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def reprojectRt(image, K, depthFactor, rmat, tmat):
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Kinv = np.linalg.inv(K)
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xsz, ysz = image.shape[1], image.shape[0]
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rotated = np.zeros((ysz, xsz, 3))
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for y in range(ysz):
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for x in range(xsz):
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z = image[y, x]/depthFactor
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v = rmat @ Kinv @ np.array([x*z, y*z, z]).T + tmat[:, 0]
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rotated[y, x, :] = v[:]
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return rotated
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# put projected points on a depth map
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def splat(projected, maxv, rgb):
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xsz, ysz = projected.shape[1], projected.shape[0]
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depth = np.full((ysz, xsz), maxv, np.float32)
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colors = np.full((ysz, xsz, 3), 0, np.uint8)
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for y in range(ysz):
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for x in range(xsz):
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p = projected[y, x, :]
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z = p[2]
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if z > 0:
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u, v = int(p[0]/z), int(p[1]/z)
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okuv = (u >= 0 and v >= 0 and u < xsz and v < ysz)
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if okuv and depth[v, u] > z:
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depth[v, u] = z
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colors[v, u, :] = rgb[y, x, :]
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return depth, colors
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maxv = depthFactor
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dstDepth, dstRgb = splat(reprojectRtProject(srcDepth, K, depthFactor, rmat, tmat), maxv, srcRgb)
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dstDepth[dstDepth >= maxv] = 0
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dstDepth = (dstDepth*depthFactor).astype(np.uint16)
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Image.fromarray(dstDepth).save(testDataPath + "/cv/rgbd/warpedDepth.png")
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Image.fromarray(dstRgb ).save(testDataPath + "/cv/rgbd/warpedRgb.png")
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# debug
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def outFile(path, ptsimg):
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f = open(path, "w")
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for y in range(ptsimg.shape[0]):
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for x in range(ptsimg.shape[1]):
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v = ptsimg[y, x, :]
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if v[2] > 0:
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f.write(f"v {v[0]} {v[1]} {v[2]}\n")
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f.close()
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outObj = False
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if outObj:
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objdir = "/path/to/objdir/"
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outFile(objdir + "reproj_rot_proj.obj", reproject(dstDepth, depthFactor, K))
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outFile(objdir + "rotated.obj", reprojectRt(srcDepth, K, depthFactor, rmat, tmat))
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