def disparity_to_ply(tile):
"""
Compute a point cloud from the disparity map of a pair of image tiles.
Args:
tile: dictionary containing the information needed to process a tile.
"""
out_dir = os.path.join(tile['dir'])
ply_file = os.path.join(out_dir, 'cloud.ply')
plyextrema = os.path.join(out_dir, 'plyextrema.txt')
x, y, w, h = tile['coordinates']
rpc1 = cfg['images'][0]['rpc']
rpc2 = cfg['images'][1]['rpc']
if os.path.exists(os.path.join(out_dir, 'stderr.log')):
print('triangulation: stderr.log exists')
print('pair_1 not processed on tile {} {}'.format(x, y))
return
if cfg['skip_existing'] and os.path.isfile(ply_file):
print('triangulation done on tile {} {}'.format(x, y))
return
print('triangulating tile {} {}...'.format(x, y))
# This function is only called when there is a single pair (pair_1)
H_ref = os.path.join(out_dir, 'pair_1', 'H_ref.txt')
H_sec = os.path.join(out_dir, 'pair_1', 'H_sec.txt')
pointing = os.path.join(cfg['out_dir'], 'global_pointing_pair_1.txt')
disp = os.path.join(out_dir, 'pair_1', 'rectified_disp.tif')
mask_rect = os.path.join(out_dir, 'pair_1', 'rectified_mask.png')
mask_orig = os.path.join(out_dir, 'cloud_water_image_domain_mask.png')
# prepare the image needed to colorize point cloud
colors = os.path.join(out_dir, 'rectified_ref.png')
if cfg['images'][0]['clr']:
hom = np.loadtxt(H_ref)
roi = [[x, y], [x + w, y], [x + w, y + h], [x, y + h]]
ww, hh = common.bounding_box2D(common.points_apply_homography(
hom, roi))[2:]
tmp = common.tmpfile('.tif')
common.image_apply_homography(tmp, cfg['images'][0]['clr'], hom,
ww + 2 * cfg['horizontal_margin'],
hh + 2 * cfg['vertical_margin'])
common.image_qauto(tmp, colors)
else:
common.image_qauto(
os.path.join(out_dir, 'pair_1', 'rectified_ref.tif'), colors)
# compute the point cloud
triangulation.disp_map_to_point_cloud(ply_file,
disp,
mask_rect,
rpc1,
rpc2,
H_ref,
H_sec,
pointing,
colors,
utm_zone=cfg['utm_zone'],
llbbx=tuple(cfg['ll_bbx']),
xybbx=(x, x + w, y, y + h),
xymsk=mask_orig)
# compute the point cloud extrema (xmin, xmax, xmin, ymax)
common.run("plyextrema %s %s" % (ply_file, plyextrema))
if cfg['clean_intermediate']:
common.remove(H_ref)
common.remove(H_sec)
common.remove(disp)
common.remove(mask_rect)
common.remove(mask_orig)
common.remove(colors)
common.remove(os.path.join(out_dir, 'pair_1', 'rectified_ref.tif'))
def disparity_to_ply(tile):
"""
Compute a point cloud from the disparity map of a pair of image tiles.
Args:
tile: dictionary containing the information needed to process a tile.
"""
out_dir = os.path.join(tile['dir'])
ply_file = os.path.join(out_dir, 'cloud.ply')
plyextrema = os.path.join(out_dir, 'plyextrema.txt')
x, y, w, h = tile['coordinates']
rpc1 = cfg['images'][0]['rpc']
rpc2 = cfg['images'][1]['rpc']
if os.path.exists(os.path.join(out_dir, 'stderr.log')):
print('triangulation: stderr.log exists')
print('pair_1 not processed on tile {} {}'.format(x, y))
return
if cfg['skip_existing'] and os.path.isfile(ply_file):
print('triangulation done on tile {} {}'.format(x, y))
return
print('triangulating tile {} {}...'.format(x, y))
# This function is only called when there is a single pair (pair_1)
H_ref = os.path.join(out_dir, 'pair_1', 'H_ref.txt')
H_sec = os.path.join(out_dir, 'pair_1', 'H_sec.txt')
pointing = os.path.join(cfg['out_dir'], 'global_pointing_pair_1.txt')
disp = os.path.join(out_dir, 'pair_1', 'rectified_disp.tif')
mask_rect = os.path.join(out_dir, 'pair_1', 'rectified_mask.png')
mask_orig = os.path.join(out_dir, 'cloud_water_image_domain_mask.png')
# prepare the image needed to colorize point cloud
colors = os.path.join(out_dir, 'rectified_ref.png')
if cfg['images'][0]['clr']:
hom = np.loadtxt(H_ref)
roi = [[x, y], [x+w, y], [x+w, y+h], [x, y+h]]
ww, hh = common.bounding_box2D(common.points_apply_homography(hom, roi))[2:]
tmp = common.tmpfile('.tif')
common.image_apply_homography(tmp, cfg['images'][0]['clr'], hom,
ww + 2*cfg['horizontal_margin'],
hh + 2*cfg['vertical_margin'])
common.image_qauto(tmp, colors)
else:
common.image_qauto(os.path.join(out_dir, 'pair_1', 'rectified_ref.tif'), colors)
# compute the point cloud
triangulation.disp_map_to_point_cloud(ply_file, disp, mask_rect, rpc1, rpc2,
H_ref, H_sec, pointing, colors,
utm_zone=cfg['utm_zone'],
llbbx=tuple(cfg['ll_bbx']),
xybbx=(x, x+w, y, y+h),
xymsk=mask_orig)
# compute the point cloud extrema (xmin, xmax, xmin, ymax)
common.run("plyextrema %s %s" % (ply_file, plyextrema))
if cfg['clean_intermediate']:
common.remove(H_ref)
common.remove(H_sec)
common.remove(disp)
common.remove(mask_rect)
common.remove(mask_orig)
common.remove(colors)
common.remove(os.path.join(out_dir, 'pair_1', 'rectified_ref.tif'))
