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| import os | |
| from sys import exit, argv | |
| import csv | |
| import random | |
| import joblib | |
| import numpy as np | |
| import cv2 | |
| from PIL import Image | |
| from tqdm import tqdm | |
| import torch | |
| from torch.utils.data import Dataset | |
| from lib.utils import preprocess_image, grid_positions, upscale_positions | |
| np.random.seed(0) | |
| class PhotoTourismIPR(Dataset): | |
| def __init__(self, base_path, preprocessing, train=True, cropSize=256): | |
| self.base_path = base_path | |
| self.train = train | |
| self.preprocessing = preprocessing | |
| self.valid_images = [] | |
| self.cropSize=cropSize | |
| def getImageFiles(self): | |
| img_files = [] | |
| img_path = "dense/images" | |
| if self.train: | |
| print("Inside training!!") | |
| with open(os.path.join("configs", "train_scenes_small.txt")) as f: | |
| scenes = f.read().strip("\n").split("\n") | |
| print("[INFO]",scenes) | |
| for scene in scenes: | |
| image_dir = os.path.join(self.base_path, scene, img_path) | |
| img_names = os.listdir(image_dir) | |
| img_files += [os.path.join(image_dir, img) for img in img_names] | |
| return img_files | |
| def imgCrop(self, img1): | |
| w, h = img1.size | |
| left = np.random.randint(low = 0, high = w - (self.cropSize)) | |
| upper = np.random.randint(low = 0, high = h - (self.cropSize)) | |
| cropImg = img1.crop((left, upper, left+self.cropSize, upper+self.cropSize)) | |
| return cropImg | |
| def getGrid(self, im1, im2, H, scaling_steps=3): | |
| h1, w1 = int(im1.shape[0]/(2**scaling_steps)), int(im1.shape[1]/(2**scaling_steps)) | |
| device = torch.device("cpu") | |
| fmap_pos1 = grid_positions(h1, w1, device) | |
| pos1 = upscale_positions(fmap_pos1, scaling_steps=scaling_steps).data.cpu().numpy() | |
| pos1[[0, 1]] = pos1[[1, 0]] | |
| ones = np.ones((1, pos1.shape[1])) | |
| pos1Homo = np.vstack((pos1, ones)) | |
| pos2Homo = np.dot(H, pos1Homo) | |
| pos2Homo = pos2Homo/pos2Homo[2, :] | |
| pos2 = pos2Homo[0:2, :] | |
| pos1[[0, 1]] = pos1[[1, 0]] | |
| pos2[[0, 1]] = pos2[[1, 0]] | |
| pos1 = pos1.astype(np.float32) | |
| pos2 = pos2.astype(np.float32) | |
| ids = [] | |
| for i in range(pos2.shape[1]): | |
| x, y = pos2[:, i] | |
| if(2 < x < (im1.shape[0]-2) and 2 < y < (im1.shape[1]-2)): | |
| ids.append(i) | |
| pos1 = pos1[:, ids] | |
| pos2 = pos2[:, ids] | |
| return pos1, pos2 | |
| def imgRotH(self, img1, min=0, max=360): | |
| width, height = img1.size | |
| theta = np.random.randint(low=min, high=max) * (np.pi / 180) | |
| Tx = width / 2 | |
| Ty = height / 2 | |
| sx = random.uniform(-1e-2, 1e-2) | |
| sy = random.uniform(-1e-2, 1e-2) | |
| p1 = random.uniform(-1e-4, 1e-4) | |
| p2 = random.uniform(-1e-4, 1e-4) | |
| alpha = np.cos(theta) | |
| beta = np.sin(theta) | |
| He = np.matrix([[alpha, beta, Tx * (1 - alpha) - Ty * beta], [-beta, alpha, beta * Tx + (1 - alpha) * Ty], [0, 0, 1]]) | |
| Ha = np.matrix([[1, sy, 0], [sx, 1, 0], [0, 0, 1]]) | |
| Hp = np.matrix([[1, 0, 0], [0, 1, 0], [p1, p2, 1]]) | |
| H = He @ Ha @ Hp | |
| return H, theta | |
| def build_dataset(self): | |
| print("Building Dataset.") | |
| imgFiles = self.getImageFiles() | |
| for idx in tqdm(range(len(imgFiles))): | |
| img = imgFiles[idx] | |
| img1 = Image.open(img) | |
| if(img1.mode != 'RGB'): | |
| img1 = img1.convert('RGB') | |
| if(img1.size[0] < self.cropSize or img1.size[1] < self.cropSize): | |
| continue | |
| self.valid_images.append(img) | |
| def __len__(self): | |
| return len(self.valid_images) | |
| def __getitem__(self, idx): | |
| while 1: | |
| try: | |
| img = self.valid_images[idx] | |
| img1 = Image.open(img) | |
| img1 = self.imgCrop(img1) | |
| width, height = img1.size | |
| H, theta = self.imgRotH(img1, min=0, max=360) | |
| img1 = np.array(img1) | |
| img2 = cv2.warpPerspective(img1, H, dsize=(width,height)) | |
| img2 = np.array(img2) | |
| pos1, pos2 = self.getGrid(img1, img2, H) | |
| assert (len(pos1) != 0 and len(pos2) != 0) | |
| break | |
| except IndexError: | |
| print("IndexError") | |
| exit(1) | |
| except: | |
| del self.valid_images[idx] | |
| img1 = preprocess_image(img1, preprocessing=self.preprocessing) | |
| img2 = preprocess_image(img2, preprocessing=self.preprocessing) | |
| return { | |
| 'image1': torch.from_numpy(img1.astype(np.float32)), | |
| 'image2': torch.from_numpy(img2.astype(np.float32)), | |
| 'pos1': torch.from_numpy(pos1.astype(np.float32)), | |
| 'pos2': torch.from_numpy(pos2.astype(np.float32)), | |
| 'H': np.array(H), | |
| 'theta': np.array([theta]) | |
| } | |
| if __name__ == '__main__': | |
| rootDir = argv[1] | |
| training_dataset = PhotoTourismIPR(rootDir, 'caffe') | |
| training_dataset.build_dataset() | |
| data = training_dataset[0] | |
| print(data['image1'].shape, data['image2'].shape, data['pos1'].shape, data['pos2'].shape, len(training_dataset)) | |