170 lines
5.4 KiB
Python
170 lines
5.4 KiB
Python
import os
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import logging
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import typing
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import numpy as np
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from colmap_wrapper import run_colmap
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import colmap_read_model as read_model
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FORMAT = "%(asctime)s %(levelname)s \t %(message)s"
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logging.basicConfig(format=FORMAT, level=logging.DEBUG)
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def gen_poses(basedir: str, match_type: str='exhaustive') -> None:
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"""
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Geneate or retreive camera poses.
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Retrieve the cameras either by generating using COLMAP or reading them if
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they already have been written.
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Parameters
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----------
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basedir: str
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The path of the directory either containing raw images or the
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arborescence of a COLMAP directory if camera poses have already been
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computed
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match_type: {'exhaustive', 'sequential'}
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The type of match COLMAP should perform if it needs to be run.
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Defaults to 'exhaustive'.
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"""
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files_needed = ["cameras.bin", "images.bin", "points3D.bin"]
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path_to_sparse = os.path.join(basedir, "sparse/0")
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if os.path.exists(path_to_sparse):
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existing_files = os.listdir(path_to_sparse)
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else:
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existing_files = []
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if not all([f in existing_files for f in files_needed]):
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logging.info("Running COLMAP")
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run_colmap(basedir, match_type)
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else:
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logging.info("Files genreated by COLMAP found. Skipping running COLMAP.")
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logging.debug("Loading COLMAP data")
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poses, points_3d, perm = load_colmap_data(basedir)
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logging.debug("Saving COLMAP data to npy")
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save_poses(basedir, poses, points_3d, perm)
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def load_colmap_data(basedir: str) -> (np.ndarray, dict, np.ndarray):
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"""
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Load data from a COLMAP arborescence.
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Parameters
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----------
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basedir: str
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The path of the directory which contains the COLMAP arborescence
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Returns
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-------
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poses: numpy.ndarray
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List of poses for each image.
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pts3d:
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List of 3D points for each image.
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perm:
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Index list ordered by name of images.
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Should be [1, 2, ..., N] if well ordered.
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"""
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# append prefix
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basedir = os.path.join(basedir, "sparse/0/")
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# read cameras data
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cameras_file = os.path.join(basedir, "cameras.bin")
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cameras_data = read_model.read_cameras_binary(cameras_file)
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logging.debug(f"Loading camera model from {cameras_file}")
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# extract intrinsic values for the camera
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# asumption is made that it is unique
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camera_h = cameras_data[1].height
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camera_w = cameras_data[1].width
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camera_f = cameras_data[1].params[0]
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hwf = np.array([camera_h, camera_w, camera_f]).reshape([3,1])
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logging.debug(f"Number of cameras: {len(cameras_data)}")
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# read images data
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images_file = os.path.join(basedir, "images.bin")
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images_data = read_model.read_images_binary(images_file)
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w2c_mats = []
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bottom = np.array([0., 0., 0., 1.]).reshape([1, 4])
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# sort by name
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names = [images_data[k].name for k in images_data]
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perm = np.argsort(names)
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# equivalent to a range since dict is index by number from 1 to N
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# create camera matrix
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for k in images_data:
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im = images_data[k]
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R = im.qvec2rotmat()
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t = im.tvec.reshape([3,1])
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m = np.concatenate([np.concatenate([R, t], 1), bottom], 0)
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w2c_mats.append(m)
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w2c_mats = np.stack(w2c_mats, 0)
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c2w_mats = np.linalg.inv(w2c_mats)
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poses = c2w_mats[:, :3, :4].transpose([1,2,0])
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poses = np.concatenate([poses, np.tile(hwf[..., np.newaxis], [1,1,poses.shape[-1]])], 1)
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# read 3d points data
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pts3d_file = os.path.join(basedir, "points3D.bin")
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pts3d = read_model.read_points3d_binary(pts3d_file)
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# must switch to [-u, r, -t] from [r, -u, t], NOT [r, u, -t]
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poses = np.concatenate([poses[:, 1:2, :], poses[:, 0:1, :], -poses[:, 2:3, :], poses[:, 3:4, :], poses[:, 4:5, :]], 1)
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return poses, pts3d, perm
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def save_poses(basedir, poses, pts3d, perm) -> None:
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"""
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Save the COLMAP data in a `.npy` format.
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Parameters
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----------
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basedir: str
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The path of the directory in which to save the data.
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Data will be saved in `basedir/poses_bounds.npy`.
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poses:
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The list of poses
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pts3d:
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The list of 3d points
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perm:
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The sorted index of the array
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"""
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pts_arr = []
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vis_arr = []
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for k in pts3d:
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pts_arr.append(pts3d[k].xyz)
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cams = [0] * poses.shape[-1]
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for ind in pts3d[k].image_ids:
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if len(cams) < ind - 1:
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logging.error("The correct camera poses for current points cannot be accessed")
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return
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cams[ind - 1] = 1
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vis_arr.append(cams)
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pts_arr = np.array(pts_arr)
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vis_arr = np.array(vis_arr)
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logging.info(f"Points {pts_arr.shape} Visibility {vis_arr.shape}")
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zvals = np.sum(-(pts_arr[:, np.newaxis, :].transpose([2,0,1]) - poses[:3, 3:4, :]) * poses[:3, 2:3, :], 0)
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valid_z = zvals[vis_arr == 1]
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logging.info(f"Depths stats - min: {valid_z.min()} max: {valid_z.max()}
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mean: {valid_z.mean()}")
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save_arr = []
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for i in perm:
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vis = vis_arr[:, i]
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zs = zvals[:, i]
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zs = zs[vis==1]
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close_depth, inf_depth = np.percentile(zs, .1), np.percentile(zs, 99.9)
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save_arr.append(np.concatenate([poses[..., i].ravel(), np.array([close_depth, inf_depth])], 0))
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save_arr = np.array(save_arr)
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save_path = os.path.join(basedir, "poses_bounds.npy")
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np.save(save_path, save_arr)
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