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dataloader.py
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dataloader.py
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# -*- coding: utf-8 -*-
#from __future__ import print_function, division
import pdb
import sys
import os
import torch
import numpy as np
import random
import csv
from torch.utils.data import Dataset, DataLoader
from torchvision import transforms, utils
from torch.utils.data.sampler import Sampler
import skimage.io
import skimage.transform
import skimage.color
import skimage
from PIL import Image
import re
def sorted_nicely( l ):
""" Sorts the given iterable in the way that is expected.
Required arguments:
l -- The iterable to be sorted.
"""
convert = lambda text: int(text) if text.isdigit() else text
alphanum_key = lambda key: [convert(c) for c in re.split('([0-9]+)', key)]
return sorted(l, key = alphanum_key)
class CSVDataset(Dataset):
"""CSV dataset."""
def __init__(self, train_file, class_list, transform=None):
"""
Args:
train_file (string): CSV file with training annotations
annotations (string): CSV file with class list
test_file (string, optional): CSV file with testing annotations
"""
self.train_file = train_file
self.class_list = class_list
self.transform = transform
self.max_label_len = 200
self.alphabet ="!&'()*+,-./0123456789:;?ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz "
#self.alphabet = "abcdefghijklmnopqrstuvwxyz0123456789ç "
# parse the provided class file
try:
with self._open_for_csv(self.class_list) as file:
self.classes = self.load_classes(csv.reader(file, delimiter=','))
except ValueError as e:
raise_from(ValueError('invalid CSV class file: {}: {}'.format(self.class_list, e)), None)
self.labels = {}
for key, value in self.classes.items():
self.labels[value] = key
# csv with img_path, x1, y1, x2, y2, class_name
train_file = self._open_for_csv(self.train_file)
try:
with self._open_for_csv(self.train_file) as file:
self.image_data = self._read_annotations(csv.reader(file, delimiter=','), self.classes)
except ValueError as e:
raise_from(ValueError('invalid CSV annotations file: {}: {}'.format(self.train_file, e)), None)
self.image_names = sorted_nicely(list(self.image_data.keys()))
def _parse(self, value, function, fmt):
"""
Parse a string into a value, and format a nice ValueError if it fails.
Returns `function(value)`.
Any `ValueError` raised is catched and a new `ValueError` is raised
with message `fmt.format(e)`, where `e` is the caught `ValueError`.
"""
try:
return function(value)
except ValueError as e:
raise_from(ValueError(fmt.format(e)), None)
def _open_for_csv(self, path):
"""
Open a file with flags suitable for csv.reader.
This is different for python2 it means with mode 'rb',
for python3 this means 'r' with "universal newlines".
"""
if sys.version_info[0] < 3:
return open(path, 'rb')
else:
return open(path, 'r', newline='')
def load_classes(self, csv_reader):
result = {}
for line, row in enumerate(csv_reader):
line += 1
try:
class_name, class_id = row
except ValueError:
raise_from(ValueError('line {}: format should be \'class_name,class_id\''.format(line)), None)
class_id = self._parse(class_id, int, 'line {}: malformed class ID: {{}}'.format(line))
if class_name in result:
raise ValueError('line {}: duplicate class name: \'{}\''.format(line, class_name))
result[class_name] = class_id
return result
def __len__(self):
return len(self.image_names)
def __getitem__(self, idx):
img = self.load_image(idx)
annot = self.load_annotations(idx)
sample = {'img': img, 'annot': annot}
if self.transform:
sample = self.transform(sample)
return sample
def load_image(self, image_index):
img = skimage.io.imread(self.image_names[image_index])
if len(img.shape) == 2:
img = skimage.color.gray2rgb(img)
return img.astype(np.float32)/255.0
def load_annotations(self, image_index):
# get ground truth annotations
annotation_list = self.image_data[self.image_names[image_index]]
annotations = np.zeros((0, 5+self.max_label_len))
# some images appear to miss annotations (like image with id 257034)
if len(annotation_list) == 0:
return annotations
# parse annotations
for idx, a in enumerate(annotation_list):
# some annotations have basically no width / height, skip them
x1 = a['x1']
x2 = a['x2']
y1 = a['y1']
y2 = a['y2']
if (x2-x1) < 1 or (y2-y1) < 1:
continue
annotation = np.zeros((1,self.max_label_len+ 5))
annotation[0, 0] = x1
annotation[0, 1] = y1
annotation[0, 2] = x2
annotation[0, 3] = y2
annotation[0, 4] = self.name_to_label(a['class'])
annotation[0,5:] = self.string_to_ids(a['transcription'])
annotations = np.append(annotations, annotation, axis=0)
return annotations
def _read_annotations(self, csv_reader, classes):
result = {}
for line, row in enumerate(csv_reader):
line += 1
try:
img_file, x1, y1, x2, y2, class_name,transcription = row[:7]
except ValueError:
raise_from(ValueError('line {}: format should be \'img_file,x1,y1,x2,y2,class_name\' or \'img_file,,,,,\''.format(line)), None)
if img_file not in result:
result[img_file] = []
# If a row contains only an image path, it's an image without annotations.
if (x1, y1, x2, y2, class_name) == ('', '', '', '', ''):
continue
x1 = self._parse(x1, int, 'line {}: malformed x1: {{}}'.format(line))
y1 = self._parse(y1, int, 'line {}: malformed y1: {{}}'.format(line))
x2 = self._parse(x2, int, 'line {}: malformed x2: {{}}'.format(line))
y2 = self._parse(y2, int, 'line {}: malformed y2: {{}}'.format(line))
# Check that the bounding box is valid.
if x2 <= x1:
raise ValueError('line {}: x2 ({}) must be higher than x1 ({})'.format(line, x2, x1))
if y2 <= y1:
raise ValueError('line {}: y2 ({}) must be higher than y1 ({})'.format(line, y2, y1))
# check if the current class name is correctly present
if class_name not in classes:
raise ValueError('line {}: unknown class name: \'{}\' (classes: {})'.format(line, class_name, classes))
result[img_file].append({'x1': x1, 'x2': x2, 'y1': y1, 'y2': y2, 'class': class_name,'transcription': transcription})
return result
def name_to_label(self, name):
return self.classes[name]
def string_to_ids(self,transcription):
transcription = transcription#.lower()
clean_transcript=[]
for w in transcription.split(' '):
clean_w=""
for letter in w:
if letter not in self.alphabet:
continue
else:
clean_w = clean_w+letter
if len(w)<1: continue
clean_transcript.append(w)
clean_transcript=" ".join(clean_transcript)
transcription=clean_transcript
#ids = np.full(self.max_label_len,len(self.alphabet)-1)
ids = np.zeros(self.max_label_len)
for i in range(len(transcription)):
if transcription[i] in self.alphabet:
ids[i] = self.alphabet.index(transcription[i])+1
else: continue
return ids
def label_to_name(self, label):
return self.labels[label]
def num_classes(self):
return max(self.classes.values()) + 1
def image_aspect_ratio(self, image_index):
image = Image.open(self.image_names[image_index])
return float(image.width) / float(image.height)
def collater(data):
imgs = [s['img'] for s in data]
annots = [s['annot'] for s in data]
scales = [s['scale'] for s in data]
widths = [int(s.shape[0]) for s in imgs]
heights = [int(s.shape[1]) for s in imgs]
batch_size = len(imgs)
max_width = np.array(widths).max()
max_height = np.array(heights).max()
max_label_len = 200
padded_imgs = torch.zeros(batch_size, max_width, max_height, 3)
for i in range(batch_size):
img = imgs[i]
padded_imgs[i, :int(img.shape[0]), :int(img.shape[1]), :] = img
max_num_annots = max(annot.shape[0] for annot in annots)
if max_num_annots > 0:
annot_padded = torch.ones((len(annots), max_num_annots, 5+max_label_len)) * -1
if max_num_annots > 0:
for idx, annot in enumerate(annots):
#print(annot.shape)
if annot.shape[0] > 0:
annot_padded[idx, :annot.shape[0], :] = annot
else:
annot_padded = torch.ones((len(annots), 1, 5+max_label_len)) * -1
padded_imgs = padded_imgs.permute(0, 3, 1, 2)
return {'img': padded_imgs, 'annot': annot_padded, 'scale': scales}
class Resizer(object):
"""Convert ndarrays in sample to Tensors."""
def __call__(self, sample, min_side=1250, max_side=1760):
image, annots = sample['img'], sample['annot']
rows, cols, cns = image.shape
smallest_side = min(rows, cols)
# rescale the image so the smallest side is min_side
scale = float(min_side) / smallest_side
# check if the largest side is now greater than max_side, which can happen
# when images have a large aspect ratio
largest_side = max(rows, cols)
if largest_side * scale > max_side:
scale = float(max_side) / largest_side
# resize the image with the computed scale
image = skimage.transform.resize(image, (int(round(rows*scale)), int(round((cols*scale)))),mode='constant')
rows, cols, cns = image.shape
pad_w = 32 - rows%32
pad_h = 32 - cols%32
new_image = np.zeros((rows + pad_w, cols + pad_h, cns)).astype(np.float32)
new_image[:rows, :cols, :] = image.astype(np.float32)
annots[:, :4] *= scale
return {'img': torch.from_numpy(new_image), 'annot': torch.from_numpy(annots), 'scale': scale}
class Augmenter(object):
"""Convert ndarrays in sample to Tensors."""
def __call__(self, sample, flip_x=0.5):
if np.random.rand() < flip_x:
image, annots = sample['img'], sample['annot']
#image = image[:, ::-1, :]
rows, cols, channels = image.shape
x1 = annots[:, 0].copy()
x2 = annots[:, 2].copy()
x_tmp = x1.copy()
#annots[:, 0] = cols - x2
#annots[:, 2] = cols - x_tmp
sample = {'img': image, 'annot': annots}
return sample
class Normalizer(object):
def __init__(self):
self.mean = np.array([[[0.485, 0.456, 0.406]]])
self.std = np.array([[[0.229, 0.224, 0.225]]])
def __call__(self, sample):
image, annots = sample['img'], sample['annot']
#return {'img':image.astype(np.float32), 'annot': annots}
return {'img':((image.astype(np.float32)-self.mean)/self.std), 'annot': annots}
class UnNormalizer(object):
def __init__(self, mean=None, std=None):
if mean == None:
self.mean = [0.485, 0.456, 0.406]
else:
self.mean = mean
if std == None:
self.std = [0.229, 0.224, 0.225]
else:
self.std = std
def __call__(self, tensor):
"""
Args:
tensor (Tensor): Tensor image of size (C, H, W) to be normalized.
Returns:
Tensor: Normalized image.
"""
for t, m, s in zip(tensor, self.mean, self.std):
t.mul_(s).add_(m)
return tensor
class AspectRatioBasedSampler(Sampler):
def __init__(self, data_source, batch_size, drop_last):
self.data_source = data_source
self.batch_size = batch_size
self.drop_last = drop_last
self.groups = [[i] for i in list(range(len(self.data_source)))]#self.group_images()
def __iter__(self):
#random.shuffle(self.groups)
for group in self.groups:
yield group
def __len__(self):
if self.drop_last:
return len(self.data_source) // self.batch_size
else:
return (len(self.data_source) + self.batch_size - 1) // self.batch_size
'''def group_images(self):
# determine the order of the images
order = list(range(len(self.data_source)))
#order.sort(key=lambda x: self.data_source.image_aspect_ratio(x))
# divide into groups, one group = one batch
return [[order[x % len(order)] for x in range(i, i + self.batch_size)] for i in range(0, len(order), self.batch_size)]'''