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convert_blender_data.py
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convert_blender_data.py
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# copy from https://github.com/hjxwhy/mipnerf_pl/blob/dev/datasets/convert_blender_data.py
# This file is modified from official mipnerf
import json
import os
import argparse
from os import path
import numpy as np
from PIL import Image
def load_renderings(data_dir, split):
"""Load images and metadata from disk."""
f = 'transforms_{}.json'.format(split)
with open(path.join(data_dir, f), 'r') as fp:
meta = json.load(fp)
images = []
cams = []
print('Loading imgs')
for frame in meta['frames']:
fname = os.path.join(data_dir, frame['file_path'] + '.png')
with open(fname, 'rb') as imgin:
image = np.array(Image.open(imgin), dtype=np.float32) / 255.
cams.append(frame['transform_matrix'])
images.append(image)
ret = {}
ret['images'] = np.stack(images, axis=0)
print('Loaded all images, shape is', ret['images'].shape)
ret['camtoworlds'] = np.stack(cams, axis=0)
w = ret['images'].shape[2]
camera_angle_x = float(meta['camera_angle_x'])
ret['focal'] = .5 * w / np.tan(.5 * camera_angle_x)
return ret
def down2(img):
"""box downsampling"""
sh = img.shape
return np.mean(np.reshape(img, [sh[0] // 2, 2, sh[1] // 2, 2, -1]), (1, 3))
def convert_to_nerfdata(basedir, newdir, n_down):
"""Convert Blender data to multiscale."""
if not os.path.exists(newdir):
os.makedirs(newdir)
splits = ['train', 'val', 'test']
bigmeta = {}
# Foreach split in the dataset
for split in splits:
print('Split', split)
# Load everything
data = load_renderings(basedir, split)
# Save out all the images
imgdir = 'images_{}'.format(split)
os.makedirs(os.path.join(newdir, imgdir), exist_ok=True)
fnames = []
widths = []
heights = []
focals = []
cam2worlds = []
lossmults = []
labels = []
nears, fars = [], []
f = data['focal']
print('Saving images')
for i, img in enumerate(data['images']):
for j in range(n_down):
fname = '{}/{:03d}_d{}.png'.format(imgdir, i, j)
fnames.append(fname)
fname = os.path.join(newdir, fname)
with open(fname, 'wb') as imgout:
img8 = Image.fromarray(np.uint8(img * 255))
img8.save(imgout)
widths.append(img.shape[1])
heights.append(img.shape[0])
focals.append(f / 2 ** j)
cam2worlds.append(data['camtoworlds'][i].tolist())
lossmults.append(4. ** j)
labels.append(j)
nears.append(2.)
fars.append(6.)
img = down2(img)
# Create metadata
meta = {}
meta['file_path'] = fnames
meta['cam2world'] = cam2worlds
meta['width'] = widths
meta['height'] = heights
meta['focal'] = focals
meta['label'] = labels
meta['near'] = nears
meta['far'] = fars
meta['lossmult'] = lossmults
fx = np.array(focals)
fy = np.array(focals)
cx = np.array(meta['width']) * .5
cy = np.array(meta['height']) * .5
arr0 = np.zeros_like(cx)
arr1 = np.ones_like(cx)
k_inv = np.array([
[arr1 / fx, arr0, -cx / fx],
[arr0, -arr1 / fy, cy / fy],
[arr0, arr0, -arr1],
])
k_inv = np.moveaxis(k_inv, -1, 0)
meta['pix2cam'] = k_inv.tolist()
bigmeta[split] = meta
for k in bigmeta:
for j in bigmeta[k]:
print(k, j, type(bigmeta[k][j]), np.array(bigmeta[k][j]).shape)
jsonfile = os.path.join(newdir, 'metadata.json')
with open(jsonfile, 'w') as f:
json.dump(bigmeta, f, ensure_ascii=False, indent=4)
def main():
parser = argparse.ArgumentParser()
parser.add_argument("--blender_dir", help="data root path", type=str,)
parser.add_argument("--object_name", help="While object you want to make multi scale", type=str,
default=None)
parser.add_argument("--out_dir", help="Output directory.", type=str)
parser.add_argument("--n_down", help="Numbers of scale you want to scale.", type=int, default=4)
args = parser.parse_args()
blenderdir = args.blender_dir
outdir = args.out_dir
n_down = args.n_down
if not os.path.exists(outdir):
os.makedirs(outdir)
scenes = os.listdir(blenderdir)
if args.object_name is not None:
scenes = [args.object_name]
dirs = [os.path.join(blenderdir, f) for f in scenes]
dirs = [d for d in dirs if os.path.isdir(d)]
print(dirs)
for basedir in dirs:
print()
newdir = os.path.join(outdir, os.path.basename(basedir))
print('Converting from', basedir, 'to', newdir)
convert_to_nerfdata(basedir, newdir, n_down)
if __name__ == '__main__':
main()