ImageImpaint_Python_II/DataLoader.py

import glob
import os

import numpy as np
import torch.utils.data.dataset
from torch.utils.data import Dataset
from torch.utils.data import DataLoader
from torchvision import transforms
from PIL import Image
import random

import ex4

IMG_SIZE = 100


class ImageDataset(Dataset):
    def __init__(self, image_dir, offsetrange: (int, int), spacingrange: (int, int), transform_chain: transforms,
                 precision: np.float32 or np.float64 = np.float32):
        self.image_files = sorted(glob.glob(os.path.join(image_dir, "**", "*.jpg"), recursive=True))
        self.precision = precision
        self.offsetrange = offsetrange
        self.spacingrange = spacingrange
        self.transform_chain = transform_chain

    def __getitem__(self, index):
        # Open image file, convert to numpy array and scale to [0, 1]
        target_image = Image.open(self.image_files[index])
        target_image = crop_image(target_image)

        target_image = self.transform_chain(target_image)

        target_image = preprocess(target_image, self.precision)

        # calculate image with black grid
        offset = (random.randint(*self.offsetrange), random.randint(*self.offsetrange))
        spacing = (random.randint(*self.spacingrange), random.randint(*self.spacingrange))
        doomed_image = ex4.ex4(target_image, offset, spacing)

        return doomed_image[0], doomed_image[1], np.transpose(target_image, (2, 0, 1))

    def __len__(self):
        return len(self.image_files)


def crop_image(image: Image) -> np.array:
    resize_transforms = transforms.Compose([
        transforms.Resize(size=IMG_SIZE),
        transforms.CenterCrop(size=(IMG_SIZE, IMG_SIZE)),
    ])
    return resize_transforms(image)


def preprocess(input: np.array, precision: np.float32 or np.float64) -> np.array:
    # image = np.array(Image.open(self.image_files[index]), dtype=np.float32) / 255
    # https://www.geeksforgeeks.org/how-to-normalize-images-in-pytorch/
    # normalize image from -1 - 1
    target_image = np.array(input, dtype=precision)
    target_image = target_image / 255.0

    # Perform normalization for each channel
    # image = (image - self.norm_mean) / self.norm_std

    return target_image


# postprecess should be the inverese function of preprocess!
def postprocess(input: np.array) -> np.array:
    # todo clipping here correct? some values are >1 because of model
    target = np.clip(input, 0, 1)
    target_image = (target * 255.0).astype(np.uint8)
    return target_image


def get_image_loader(path: str, precision: np.float32 or np.float64):
    # ranges due to project spec
    image_dataset = ImageDataset(path,
                                 offsetrange=(0, 8),
                                 spacingrange=(2, 6),
                                 transform_chain=transforms.Compose([transforms.RandomHorizontalFlip(),
                                                                     transforms.RandomVerticalFlip()]),
                                 precision=precision)
    #
    # image_dataset_augmented = ImageDataset(path,
    #                                        offsetrange=(0, 8),
    #                                        spacingrange=(2, 6),
    #                                        transform_chain=transforms.Compose([transforms.RandomHorizontalFlip(),
    #                                                                            transforms.RandomVerticalFlip(),
    #                                                                            transforms.GaussianBlur(3, 4)]),
    #                                        precision=precision)

    # merge different datasets here!
    merged_dataset = torch.utils.data.ConcatDataset([image_dataset])

    totlen = len(merged_dataset)
    test_set_size = .1
    train_split, test_split = torch.utils.data.dataset.random_split(merged_dataset,
                                                                    lengths=(totlen - int(totlen * test_set_size),
                                                                             int(totlen * test_set_size)))

    train_loader = DataLoader(
        train_split,
        shuffle=True,  # shuffle the order of our samples
        batch_size=25,  # stack 4 samples to a minibatch
        num_workers=4  # no background workers (see comment below)
    )

    test_loader = DataLoader(
        test_split,
        shuffle=True,  # shuffle the order of our samples
        batch_size=5,  # stack 4 samples to a minibatch
        num_workers=0  # no background workers (see comment below)
    )

    return train_loader, test_loader
implement basic structure of project 2022-06-01 10:27:58 +00:00			`import glob`
			`import os`

			`import numpy as np`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00			`import torch.utils.data.dataset`
implement basic structure of project 2022-06-01 10:27:58 +00:00			`from torch.utils.data import Dataset`
			`from torch.utils.data import DataLoader`
basic training logic 2022-06-28 16:28:36 +00:00			`from torchvision import transforms`
			`from PIL import Image`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`import random`
basic training logic 2022-06-28 16:28:36 +00:00
			`import ex4`

			`IMG_SIZE = 100`
implement basic structure of project 2022-06-01 10:27:58 +00:00

			`class ImageDataset(Dataset):`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`def __init__(self, image_dir, offsetrange: (int, int), spacingrange: (int, int), transform_chain: transforms,`
			`precision: np.float32 or np.float64 = np.float32):`
implement basic structure of project 2022-06-01 10:27:58 +00:00			`self.image_files = sorted(glob.glob(os.path.join(image_dir, "*", ".jpg"), recursive=True))`
saving of model 2022-07-01 13:35:12 +00:00			`self.precision = precision`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`self.offsetrange = offsetrange`
			`self.spacingrange = spacingrange`
			`self.transform_chain = transform_chain`
implement basic structure of project 2022-06-01 10:27:58 +00:00
			`def __getitem__(self, index):`
			`# Open image file, convert to numpy array and scale to [0, 1]`
basic training logic 2022-06-28 16:28:36 +00:00			`target_image = Image.open(self.image_files[index])`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`target_image = crop_image(target_image)`

			`target_image = self.transform_chain(target_image)`
saving of model 2022-07-01 13:35:12 +00:00
			`target_image = preprocess(target_image, self.precision)`
basic training logic 2022-06-28 16:28:36 +00:00
			`# calculate image with black grid`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`offset = (random.randint(self.offsetrange), random.randint(self.offsetrange))`
			`spacing = (random.randint(self.spacingrange), random.randint(self.spacingrange))`
			`doomed_image = ex4.ex4(target_image, offset, spacing)`
basic training logic 2022-06-28 16:28:36 +00:00
add mask to training export trainpickle file in correct format 2022-07-09 23:22:28 +00:00			`return doomed_image[0], doomed_image[1], np.transpose(target_image, (2, 0, 1))`
implement basic structure of project 2022-06-01 10:27:58 +00:00
			`def __len__(self):`
			`return len(self.image_files)`


lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`def crop_image(image: Image) -> np.array:`
saving of model 2022-07-01 13:35:12 +00:00			`resize_transforms = transforms.Compose([`
			`transforms.Resize(size=IMG_SIZE),`
			`transforms.CenterCrop(size=(IMG_SIZE, IMG_SIZE)),`
			`])`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`return resize_transforms(image)`
saving of model 2022-07-01 13:35:12 +00:00
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00
			`def preprocess(input: np.array, precision: np.float32 or np.float64) -> np.array:`
			`# image = np.array(Image.open(self.image_files[index]), dtype=np.float32) / 255`
			`# https://www.geeksforgeeks.org/how-to-normalize-images-in-pytorch/`
			`# normalize image from -1 - 1`
			`target_image = np.array(input, dtype=precision)`
			`target_image = target_image / 255.0`
add lots of validation code and correct saving of pickle file 2022-06-29 15:20:16 +00:00
			`# Perform normalization for each channel`
			`# image = (image - self.norm_mean) / self.norm_std`

			`return target_image`


			`# postprecess should be the inverese function of preprocess!`
			`def postprocess(input: np.array) -> np.array:`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`# todo clipping here correct? some values are >1 because of model`
			`target = np.clip(input, 0, 1)`
			`target_image = (target * 255.0).astype(np.uint8)`
add lots of validation code and correct saving of pickle file 2022-06-29 15:20:16 +00:00			`return target_image`


saving of model 2022-07-01 13:35:12 +00:00			`def get_image_loader(path: str, precision: np.float32 or np.float64):`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`# ranges due to project spec`
			`image_dataset = ImageDataset(path,`
			`offsetrange=(0, 8),`
			`spacingrange=(2, 6),`
			`transform_chain=transforms.Compose([transforms.RandomHorizontalFlip(),`
			`transforms.RandomVerticalFlip()]),`
			`precision=precision)`
rm wrong file edit net a bit 2022-07-11 21:36:07 +00:00			`#`
			`# image_dataset_augmented = ImageDataset(path,`
			`# offsetrange=(0, 8),`
			`# spacingrange=(2, 6),`
			`# transform_chain=transforms.Compose([transforms.RandomHorizontalFlip(),`
			`# transforms.RandomVerticalFlip(),`
			`# transforms.GaussianBlur(3, 4)]),`
			`# precision=precision)`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00
			`# merge different datasets here!`
rm wrong file edit net a bit 2022-07-11 21:36:07 +00:00			`merged_dataset = torch.utils.data.ConcatDataset([image_dataset])`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00
			`totlen = len(merged_dataset)`
saving of model 2022-07-01 13:35:12 +00:00			`test_set_size = .1`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`train_split, test_split = torch.utils.data.dataset.random_split(merged_dataset,`
			`lengths=(totlen - int(totlen * test_set_size),`
			`int(totlen * test_set_size)))`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00
			`train_loader = DataLoader(`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`train_split,`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00			`shuffle=True, # shuffle the order of our samples`
saving of model 2022-07-01 13:35:12 +00:00			`batch_size=25, # stack 4 samples to a minibatch`
add lots of validation code and correct saving of pickle file 2022-06-29 15:20:16 +00:00			`num_workers=4 # no background workers (see comment below)`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00			`)`

			`test_loader = DataLoader(`
lots of improvements data augmentation plotting of intermediate pics 2022-07-02 14:11:27 +00:00			`test_split,`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00			`shuffle=True, # shuffle the order of our samples`
saving of model 2022-07-01 13:35:12 +00:00			`batch_size=5, # stack 4 samples to a minibatch`
implmente save/load, eval structure 2022-06-01 14:07:32 +00:00			`num_workers=0 # no background workers (see comment below)`
			`)`

			`return train_loader, test_loader`