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custom_transforms_val.py
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custom_transforms_val.py
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from __future__ import division
import torch
import random
import numpy as np
from scipy.misc import imresize
import cv2
from matplotlib import pyplot as plt
import pdb
'''Set of tranform random routines that takes list of inputs as arguments,
in order to have random but coherent transformations.'''
class Compose(object):
def __init__(self, transforms):
self.transforms = transforms
def __call__(self, images, intrinsics):
for t in self.transforms:
images, intrinsics = t(images, intrinsics)
return images, intrinsics
class Normalize(object):
def __init__(self, mean, std):
self.mean = mean
self.std = std
def __call__(self, images, intrinsics):
for tensor in images:
for t, m, s in zip(tensor, self.mean, self.std):
t.sub_(m).div_(s)
return images, intrinsics
class ArrayToTensor(object):
"""Converts a list of numpy.ndarray (H x W x C) along with a intrinsics matrix to a list of torch.FloatTensor of shape (C x H x W) with a intrinsics tensor."""
def __call__(self, images, intrinsics):
tensors = []
# pdb.set_trace()
for im in images:
# put it from HWC to CHW format
im = np.transpose(im, (2, 0, 1))
# handle numpy array
tensors.append(torch.from_numpy(im).float()/255)
return tensors, intrinsics
class RandomHorizontalFlip(object):
"""Randomly horizontally flips the given numpy array with a probability of 0.5"""
def __call__(self, images, intrinsics):
assert intrinsics is not None
if random.random() < 0.5:
output_intrinsics = np.copy(intrinsics)
output_images = [np.copy(np.fliplr(im)) for im in images]
w = output_images[0].shape[1]
output_intrinsics[0,2] = w - output_intrinsics[0,2]
else:
output_images = images
output_intrinsics = intrinsics
return output_images, output_intrinsics
class RandomScaleCrop(object):
"""Randomly zooms images up to 15% and crop them to keep same size as before."""
def __call__(self, images, intrinsics):
assert intrinsics is not None
output_intrinsics = np.copy(intrinsics)
in_h, in_w, _ = images[0].shape
x_scaling, y_scaling = np.random.uniform(1,1.15,2)
scaled_h, scaled_w = int(in_h * y_scaling), int(in_w * x_scaling)
output_intrinsics[0] *= x_scaling
output_intrinsics[1] *= y_scaling
scaled_images = [imresize(im, (scaled_h, scaled_w)) for im in images]
offset_y = np.random.randint(scaled_h - in_h + 1)
offset_x = np.random.randint(scaled_w - in_w + 1)
cropped_images = [im[offset_y:offset_y + in_h, offset_x:offset_x + in_w] for im in scaled_images]
output_intrinsics[0,2] -= offset_x
output_intrinsics[1,2] -= offset_y
return cropped_images, output_intrinsics