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import json | |
import numpy as np | |
from numpy.linalg import inv | |
from pathlib import Path | |
import imageio | |
import open3d as o3d | |
from hc3d.vis import CameraCone | |
from hc3d.render import compute_intrinsics, unproject | |
from hc3d.utils import batch_img_resize | |
from fabric.utils.seed import seed_everything | |
def get_K(H=500, W=500, fov=60): | |
K = compute_intrinsics(W / H, fov, H) | |
return K | |
def shoot_rays(K, pose): | |
h = 200 | |
pixs = np.array([ | |
[10, h], | |
[200, h], | |
[400, h] | |
]) | |
pts = unproject(K, pixs, depth=1.0) | |
pts = np.concatenate([ | |
pts, | |
np.array([0, 0, 0, 1]).reshape(1, -1), | |
], axis=0) # origin, followed by 4 img corners | |
pts = pts @ pose.T | |
pts = pts[:, :3] | |
pts = pts.astype(np.float32) | |
n = len(pixs) | |
lines = np.array([ | |
[i, n] for i in range(n) | |
], dtype=np.int32) | |
color = [1, 1, 0] | |
colors = np.array([color] * len(lines), dtype=np.float32) | |
lset = o3d.t.geometry.LineSet() | |
lset.point['positions'] = pts | |
lset.line['indices'] = lines | |
lset.line['colors'] = colors | |
return lset | |
def test_rays(H, W, K): | |
xs, ys = np.meshgrid( | |
np.arange(W, dtype=np.float32), | |
np.arange(H, dtype=np.float32), indexing='xy' | |
) | |
xys = np.stack([xs, ys], axis=-1) | |
my_rays = unproject(K, xys.reshape(-1, 2)) | |
my_rays = my_rays.reshape(int(H), int(W), 4)[:, :, :3] | |
return | |
def plot_inward_facing_views(): | |
# from run_sjc import get_train_poses | |
from math import pi | |
from pose import Poser | |
H, W = 64, 64 | |
poser = Poser(H, W, FoV=60, R=4) | |
# K, poses = poser.sample_test(100) | |
K, poses, _ = poser.sample_train(1000) | |
K = K[0] | |
cam_locs = poses[:, :3, -1] | |
# radius = np.linalg.norm(cam_locs, axis=1) | |
# print(f"scene radius {radius}") | |
# test_rays(H, W, K) | |
# K = get_K(H, W, 50) | |
# NeRF blender actually follows OpenGL camera convention (except top-left corner); nice | |
# but its world coordinate is z up. I find it strange. | |
def generate_cam(po, color, im=None): | |
cone = CameraCone(K, po, W, H, scale=0.1, | |
top_left_corner=(0, 0), color=color) | |
lset = cone.as_line_set() | |
if im is None: | |
return [lset] | |
else: | |
# o3d img tsr requires contiguous array | |
im = np.ascontiguousarray(im) | |
view_plane = cone.as_view_plane(im) | |
return [lset, view_plane] | |
cones = [] | |
for i in range(len(poses)): | |
po = poses[i] | |
geom = generate_cam(po, [1, 0, 0]) | |
cones.extend(geom) | |
# rays = shoot_rays(K, po) | |
# cones.extend([rays]) | |
o3d.visualization.draw(cones, show_skybox=False) | |
def blend_rgba(img): | |
img = img[..., :3] * img[..., -1:] + (1. - img[..., -1:]) # blend A to RGB | |
return img | |
def compare(): | |
import math | |
import matplotlib.pyplot as plt | |
vs = np.linspace(1e-5, math.pi - 1e-5, 500) | |
phi = np.arccos(1 - 2 * (vs / math.pi)) | |
plt.plot(vs, phi) | |
plt.show() | |
if __name__ == "__main__": | |
seed_everything(0) | |
plot_inward_facing_views() | |
# compare() | |