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# Copyright (C) 2024-present Naver Corporation. All rights reserved. | |
# Licensed under CC BY-NC-SA 4.0 (non-commercial use only). | |
# | |
# -------------------------------------------------------- | |
# base class for implementing datasets | |
# -------------------------------------------------------- | |
import PIL | |
import numpy as np | |
import torch | |
from dust3r.datasets.base.easy_dataset import EasyDataset | |
from dust3r.datasets.utils.transforms import ImgNorm | |
from dust3r.utils.geometry import depthmap_to_absolute_camera_coordinates | |
import dust3r.datasets.utils.cropping as cropping | |
class BaseStereoViewDataset (EasyDataset): | |
""" Define all basic options. | |
Usage: | |
class MyDataset (BaseStereoViewDataset): | |
def _get_views(self, idx, rng): | |
# overload here | |
views = [] | |
views.append(dict(img=, ...)) | |
return views | |
""" | |
def __init__(self, *, # only keyword arguments | |
split=None, | |
resolution=None, # square_size or (width, height) or list of [(width,height), ...] | |
transform=ImgNorm, | |
aug_crop=False, | |
seed=None): | |
self.num_views = 2 | |
self.split = split | |
self._set_resolutions(resolution) | |
self.transform = transform | |
if isinstance(transform, str): | |
transform = eval(transform) | |
self.aug_crop = aug_crop | |
self.seed = seed | |
def __len__(self): | |
return len(self.scenes) | |
def get_stats(self): | |
return f"{len(self)} pairs" | |
def __repr__(self): | |
resolutions_str = '['+';'.join(f'{w}x{h}' for w, h in self._resolutions)+']' | |
return f"""{type(self).__name__}({self.get_stats()}, | |
{self.split=}, | |
{self.seed=}, | |
resolutions={resolutions_str}, | |
{self.transform=})""".replace('self.', '').replace('\n', '').replace(' ', '') | |
def _get_views(self, idx, resolution, rng): | |
raise NotImplementedError() | |
def __getitem__(self, idx): | |
if isinstance(idx, tuple): | |
# the idx is specifying the aspect-ratio | |
idx, ar_idx = idx | |
else: | |
assert len(self._resolutions) == 1 | |
ar_idx = 0 | |
# set-up the rng | |
if self.seed: # reseed for each __getitem__ | |
self._rng = np.random.default_rng(seed=self.seed + idx) | |
elif not hasattr(self, '_rng'): | |
seed = torch.initial_seed() # this is different for each dataloader process | |
self._rng = np.random.default_rng(seed=seed) | |
# over-loaded code | |
resolution = self._resolutions[ar_idx] # DO NOT CHANGE THIS (compatible with BatchedRandomSampler) | |
views = self._get_views(idx, resolution, self._rng) | |
# check data-types | |
for v, view in enumerate(views): | |
assert 'pts3d' not in view, f"pts3d should not be there, they will be computed afterwards based on intrinsics+depthmap for view {view_name(view)}" | |
view['idx'] = (idx, ar_idx, v) | |
# encode the image | |
width, height = view['img'].size | |
view['true_shape'] = np.int32((height, width)) | |
view['img'] = self.transform(view['img']) | |
assert 'camera_intrinsics' in view | |
if 'camera_pose' not in view: | |
view['camera_pose'] = np.full((4, 4), np.nan, dtype=np.float32) | |
else: | |
assert np.isfinite(view['camera_pose']).all(), f'NaN in camera pose for view {view_name(view)}' | |
assert 'pts3d' not in view | |
assert 'valid_mask' not in view | |
assert np.isfinite(view['depthmap']).all(), f'NaN in depthmap for view {view_name(view)}' | |
pts3d, valid_mask = depthmap_to_absolute_camera_coordinates(**view) | |
view['pts3d'] = pts3d | |
view['valid_mask'] = valid_mask & np.isfinite(pts3d).all(axis=-1) | |
# check all datatypes | |
for key, val in view.items(): | |
res, err_msg = is_good_type(key, val) | |
assert res, f"{err_msg} with {key}={val} for view {view_name(view)}" | |
K = view['camera_intrinsics'] | |
# last thing done! | |
for view in views: | |
# transpose to make sure all views are the same size | |
transpose_to_landscape(view) | |
# this allows to check whether the RNG is is the same state each time | |
view['rng'] = int.from_bytes(self._rng.bytes(4), 'big') | |
return views | |
def _set_resolutions(self, resolutions): | |
''' Set the resolution(s) of the dataset. | |
Params: | |
- resolutions: int or tuple or list of tuples | |
''' | |
assert resolutions is not None, 'undefined resolution' | |
if not isinstance(resolutions, list): | |
resolutions = [resolutions] | |
self._resolutions = [] | |
for resolution in resolutions: | |
if isinstance(resolution, int): | |
width = height = resolution | |
else: | |
width, height = resolution | |
assert isinstance(width, int), f'Bad type for {width=} {type(width)=}, should be int' | |
assert isinstance(height, int), f'Bad type for {height=} {type(height)=}, should be int' | |
assert width >= height | |
self._resolutions.append((width, height)) | |
def _crop_resize_if_necessary(self, image, depthmap, intrinsics, resolution, rng=None, info=None): | |
""" This function: | |
- first downsizes the image with LANCZOS inteprolation, | |
which is better than bilinear interpolation in | |
""" | |
if not isinstance(image, PIL.Image.Image): | |
image = PIL.Image.fromarray(image) | |
# downscale with lanczos interpolation so that image.size == resolution | |
# cropping centered on the principal point | |
W, H = image.size | |
cx, cy = intrinsics[:2, 2].round().astype(int) | |
# calculate min distance to margin | |
min_margin_x = min(cx, W-cx) | |
min_margin_y = min(cy, H-cy) | |
assert min_margin_x > W/5, f'Bad principal point in view={info}' | |
assert min_margin_y > H/5, f'Bad principal point in view={info}' | |
## Center crop | |
# Crop on the principal point, make it always centered | |
# the new window will be a rectangle of size (2*min_margin_x, 2*min_margin_y) centered on (cx,cy) | |
l, t = cx - min_margin_x, cy - min_margin_y | |
r, b = cx + min_margin_x, cy + min_margin_y | |
crop_bbox = (l, t, r, b) | |
image, depthmap, intrinsics = cropping.crop_image_depthmap(image, depthmap, intrinsics, crop_bbox) | |
# transpose the resolution if necessary | |
W, H = image.size # new size | |
assert resolution[0] >= resolution[1] | |
if H > 1.1*W: | |
# image is portrait mode | |
resolution = resolution[::-1] | |
elif 0.9 < H/W < 1.1 and resolution[0] != resolution[1]: | |
# image is square, so we chose (portrait, landscape) randomly | |
if rng.integers(2): | |
resolution = resolution[::-1] | |
# high-quality Lanczos down-scaling | |
target_resolution = np.array(resolution) | |
if self.aug_crop > 1: | |
target_resolution += rng.integers(0, self.aug_crop) | |
## Recale with max factor, so one of width or height might be larger than target_resolution | |
image, depthmap, intrinsics = cropping.rescale_image_depthmap(image, depthmap, intrinsics, target_resolution) | |
# actual cropping (if necessary) with bilinear interpolation | |
intrinsics2 = cropping.camera_matrix_of_crop(intrinsics, image.size, resolution, offset_factor=0.5) | |
crop_bbox = cropping.bbox_from_intrinsics_in_out(intrinsics, intrinsics2, resolution) | |
image, depthmap, intrinsics2 = cropping.crop_image_depthmap(image, depthmap, intrinsics, crop_bbox) | |
return image, depthmap, intrinsics2 | |
def is_good_type(key, v): | |
""" returns (is_good, err_msg) | |
""" | |
if isinstance(v, (str, int, tuple)): | |
return True, None | |
if v.dtype not in (np.float32, torch.float32, bool, np.int32, np.int64, np.uint8): | |
return False, f"bad {v.dtype=}" | |
return True, None | |
def view_name(view, batch_index=None): | |
def sel(x): return x[batch_index] if batch_index not in (None, slice(None)) else x | |
db = sel(view['dataset']) | |
label = sel(view['label']) | |
instance = sel(view['instance']) | |
return f"{db}/{label}/{instance}" | |
def transpose_to_landscape(view): | |
height, width = view['true_shape'] | |
if width < height: | |
# rectify portrait to landscape | |
assert view['img'].shape == (3, height, width) | |
view['img'] = view['img'].swapaxes(1, 2) | |
assert view['valid_mask'].shape == (height, width) | |
view['valid_mask'] = view['valid_mask'].swapaxes(0, 1) | |
assert view['depthmap'].shape == (height, width) | |
view['depthmap'] = view['depthmap'].swapaxes(0, 1) | |
assert view['pts3d'].shape == (height, width, 3) | |
view['pts3d'] = view['pts3d'].swapaxes(0, 1) | |
# transpose x and y pixels | |
view['camera_intrinsics'] = view['camera_intrinsics'][[1, 0, 2]] | |