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import os |
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from PIL import Image |
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import h5py |
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import numpy as np |
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import torch |
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import torchvision.transforms.functional as tvf |
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import kornia.augmentation as K |
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from roma.utils import get_depth_tuple_transform_ops, get_tuple_transform_ops |
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import roma |
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from roma.utils import * |
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import math |
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class MegadepthScene: |
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def __init__( |
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self, |
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data_root, |
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scene_info, |
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ht=384, |
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wt=512, |
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min_overlap=0.0, |
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max_overlap=1.0, |
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shake_t=0, |
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rot_prob=0.0, |
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normalize=True, |
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max_num_pairs = 100_000, |
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scene_name = None, |
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use_horizontal_flip_aug = False, |
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use_single_horizontal_flip_aug = False, |
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colorjiggle_params = None, |
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random_eraser = None, |
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use_randaug = False, |
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randaug_params = None, |
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randomize_size = False, |
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) -> None: |
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self.data_root = data_root |
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self.scene_name = os.path.splitext(scene_name)[0]+f"_{min_overlap}_{max_overlap}" |
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self.image_paths = scene_info["image_paths"] |
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self.depth_paths = scene_info["depth_paths"] |
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self.intrinsics = scene_info["intrinsics"] |
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self.poses = scene_info["poses"] |
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self.pairs = scene_info["pairs"] |
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self.overlaps = scene_info["overlaps"] |
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threshold = (self.overlaps > min_overlap) & (self.overlaps < max_overlap) |
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self.pairs = self.pairs[threshold] |
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self.overlaps = self.overlaps[threshold] |
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if len(self.pairs) > max_num_pairs: |
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pairinds = np.random.choice( |
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np.arange(0, len(self.pairs)), max_num_pairs, replace=False |
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) |
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self.pairs = self.pairs[pairinds] |
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self.overlaps = self.overlaps[pairinds] |
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if randomize_size: |
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area = ht * wt |
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s = int(16 * (math.sqrt(area)//16)) |
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sizes = ((ht,wt), (s,s), (wt,ht)) |
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choice = roma.RANK % 3 |
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ht, wt = sizes[choice] |
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self.im_transform_ops = get_tuple_transform_ops( |
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resize=(ht, wt), normalize=normalize, colorjiggle_params = colorjiggle_params, |
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) |
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self.depth_transform_ops = get_depth_tuple_transform_ops( |
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resize=(ht, wt) |
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) |
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self.wt, self.ht = wt, ht |
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self.shake_t = shake_t |
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self.random_eraser = random_eraser |
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if use_horizontal_flip_aug and use_single_horizontal_flip_aug: |
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raise ValueError("Can't both flip both images and only flip one") |
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self.use_horizontal_flip_aug = use_horizontal_flip_aug |
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self.use_single_horizontal_flip_aug = use_single_horizontal_flip_aug |
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self.use_randaug = use_randaug |
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def load_im(self, im_path): |
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im = Image.open(im_path) |
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return im |
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def horizontal_flip(self, im_A, im_B, depth_A, depth_B, K_A, K_B): |
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im_A = im_A.flip(-1) |
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im_B = im_B.flip(-1) |
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depth_A, depth_B = depth_A.flip(-1), depth_B.flip(-1) |
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flip_mat = torch.tensor([[-1, 0, self.wt],[0,1,0],[0,0,1.]]).to(K_A.device) |
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K_A = flip_mat@K_A |
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K_B = flip_mat@K_B |
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return im_A, im_B, depth_A, depth_B, K_A, K_B |
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def load_depth(self, depth_ref, crop=None): |
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depth = np.array(h5py.File(depth_ref, "r")["depth"]) |
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return torch.from_numpy(depth) |
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|
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def __len__(self): |
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return len(self.pairs) |
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def scale_intrinsic(self, K, wi, hi): |
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sx, sy = self.wt / wi, self.ht / hi |
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sK = torch.tensor([[sx, 0, 0], [0, sy, 0], [0, 0, 1]]) |
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return sK @ K |
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|
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def rand_shake(self, *things): |
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t = np.random.choice(range(-self.shake_t, self.shake_t + 1), size=2) |
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return [ |
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tvf.affine(thing, angle=0.0, translate=list(t), scale=1.0, shear=[0.0, 0.0]) |
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for thing in things |
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], t |
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def __getitem__(self, pair_idx): |
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idx1, idx2 = self.pairs[pair_idx] |
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K1 = torch.tensor(self.intrinsics[idx1].copy(), dtype=torch.float).reshape(3, 3) |
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K2 = torch.tensor(self.intrinsics[idx2].copy(), dtype=torch.float).reshape(3, 3) |
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T1 = self.poses[idx1] |
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T2 = self.poses[idx2] |
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T_1to2 = torch.tensor(np.matmul(T2, np.linalg.inv(T1)), dtype=torch.float)[ |
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:4, :4 |
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] |
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im_A, im_B = self.image_paths[idx1], self.image_paths[idx2] |
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depth1, depth2 = self.depth_paths[idx1], self.depth_paths[idx2] |
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im_A_ref = os.path.join(self.data_root, im_A) |
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im_B_ref = os.path.join(self.data_root, im_B) |
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depth_A_ref = os.path.join(self.data_root, depth1) |
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depth_B_ref = os.path.join(self.data_root, depth2) |
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im_A = self.load_im(im_A_ref) |
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im_B = self.load_im(im_B_ref) |
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K1 = self.scale_intrinsic(K1, im_A.width, im_A.height) |
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K2 = self.scale_intrinsic(K2, im_B.width, im_B.height) |
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if self.use_randaug: |
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im_A, im_B = self.rand_augment(im_A, im_B) |
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depth_A = self.load_depth(depth_A_ref) |
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depth_B = self.load_depth(depth_B_ref) |
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im_A, im_B = self.im_transform_ops((im_A, im_B)) |
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depth_A, depth_B = self.depth_transform_ops( |
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(depth_A[None, None], depth_B[None, None]) |
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) |
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[im_A, im_B, depth_A, depth_B], t = self.rand_shake(im_A, im_B, depth_A, depth_B) |
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K1[:2, 2] += t |
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K2[:2, 2] += t |
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im_A, im_B = im_A[None], im_B[None] |
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if self.random_eraser is not None: |
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im_A, depth_A = self.random_eraser(im_A, depth_A) |
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im_B, depth_B = self.random_eraser(im_B, depth_B) |
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if self.use_horizontal_flip_aug: |
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if np.random.rand() > 0.5: |
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im_A, im_B, depth_A, depth_B, K1, K2 = self.horizontal_flip(im_A, im_B, depth_A, depth_B, K1, K2) |
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if self.use_single_horizontal_flip_aug: |
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if np.random.rand() > 0.5: |
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im_B, depth_B, K2 = self.single_horizontal_flip(im_B, depth_B, K2) |
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if roma.DEBUG_MODE: |
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tensor_to_pil(im_A[0], unnormalize=True).save( |
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f"vis/im_A.jpg") |
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tensor_to_pil(im_B[0], unnormalize=True).save( |
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f"vis/im_B.jpg") |
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data_dict = { |
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"im_A": im_A[0], |
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"im_A_identifier": self.image_paths[idx1].split("/")[-1].split(".jpg")[0], |
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"im_B": im_B[0], |
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"im_B_identifier": self.image_paths[idx2].split("/")[-1].split(".jpg")[0], |
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"im_A_depth": depth_A[0, 0], |
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"im_B_depth": depth_B[0, 0], |
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"K1": K1, |
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"K2": K2, |
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"T_1to2": T_1to2, |
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"im_A_path": im_A_ref, |
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"im_B_path": im_B_ref, |
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} |
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return data_dict |
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class MegadepthBuilder: |
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def __init__(self, data_root="data/megadepth", loftr_ignore=True, imc21_ignore = True) -> None: |
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self.data_root = data_root |
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self.scene_info_root = os.path.join(data_root, "prep_scene_info") |
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self.all_scenes = os.listdir(self.scene_info_root) |
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self.test_scenes = ["0017.npy", "0004.npy", "0048.npy", "0013.npy"] |
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self.loftr_ignore_scenes = set(['0121.npy', '0133.npy', '0168.npy', '0178.npy', '0229.npy', '0349.npy', '0412.npy', '0430.npy', '0443.npy', '1001.npy', '5014.npy', '5015.npy', '5016.npy']) |
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self.imc21_scenes = set(['0008.npy', '0019.npy', '0021.npy', '0024.npy', '0025.npy', '0032.npy', '0063.npy', '1589.npy']) |
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self.test_scenes_loftr = ["0015.npy", "0022.npy"] |
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self.loftr_ignore = loftr_ignore |
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self.imc21_ignore = imc21_ignore |
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def build_scenes(self, split="train", min_overlap=0.0, scene_names = None, **kwargs): |
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if split == "train": |
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scene_names = set(self.all_scenes) - set(self.test_scenes) |
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elif split == "train_loftr": |
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scene_names = set(self.all_scenes) - set(self.test_scenes_loftr) |
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elif split == "test": |
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scene_names = self.test_scenes |
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elif split == "test_loftr": |
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scene_names = self.test_scenes_loftr |
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elif split == "custom": |
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scene_names = scene_names |
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else: |
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raise ValueError(f"Split {split} not available") |
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scenes = [] |
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for scene_name in scene_names: |
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if self.loftr_ignore and scene_name in self.loftr_ignore_scenes: |
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continue |
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if self.imc21_ignore and scene_name in self.imc21_scenes: |
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continue |
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scene_info = np.load( |
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os.path.join(self.scene_info_root, scene_name), allow_pickle=True |
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).item() |
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scenes.append( |
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MegadepthScene( |
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self.data_root, scene_info, min_overlap=min_overlap,scene_name = scene_name, **kwargs |
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) |
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) |
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return scenes |
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|
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def weight_scenes(self, concat_dataset, alpha=0.5): |
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ns = [] |
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for d in concat_dataset.datasets: |
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ns.append(len(d)) |
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ws = torch.cat([torch.ones(n) / n**alpha for n in ns]) |
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return ws |
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