cisen/utils/dataset.py

import os
from typing import List, Union
import random

import json
import numpy as np
from PIL import Image
import torch
from torch.utils.data import Dataset
from torchvision import transforms
from loguru import logger

from .simple_tokenizer import SimpleTokenizer as _Tokenizer
from transformers import AutoTokenizer, AutoModelForSequenceClassification
_tokenizer = _Tokenizer()

# text_tokenize = AutoTokenizer.from_pretrained("./Taiyi-CLIP-s", model_max_length=512)
def tokenize(texts: Union[str, List[str]],
             context_length: int = 77,
             truncate: bool = False) -> torch.LongTensor:
    """
    Returns the tokenized representation of given input string(s)

    Parameters
    ----------
    texts : Union[str, List[str]]
        An input string or a list of input strings to tokenize

    context_length : int
        The context length to use; all CLIP models use 77 as the context length

    truncate: bool
        Whether to truncate the text in case its encoding is longer than the context length

    Returns
    -------
    A two-dimensional tensor containing the resulting tokens, shape = [number of input strings, context_length]
    """
    if isinstance(texts, str):
        texts = [texts]

    sot_token = _tokenizer.encoder["<|startoftext|>"]
    eot_token = _tokenizer.encoder["<|endoftext|>"]
    all_tokens = [[sot_token] + _tokenizer.encode(text) + [eot_token]
                  for text in texts]
    result = torch.zeros(len(all_tokens), context_length, dtype=torch.long)

    for i, tokens in enumerate(all_tokens):
        if len(tokens) > context_length:
            if truncate:
                tokens = tokens[:context_length]
                tokens[-1] = eot_token
            else:
                raise RuntimeError(
                    f"Input {texts[i]} is too long for context length {context_length}"
                )
        result[i, :len(tokens)] = torch.tensor(tokens)

    return result

def select_idxs(seq_length, n_to_select, n_from_select, seed=42):
    """
    Select n_to_select indexes from each consequent n_from_select indexes from range with length seq_length, split
    selected indexes to separate arrays

    Example:

    seq_length = 20
    n_from_select = 5
    n_to_select = 2

    input, range of length seq_length:
    range = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]

    sequences of length n_from_select:
    sequences = [[0, 1, 2, 3, 4], [5, 6, 7, 8, 9], [10, 11, 12, 13, 14], [15, 16, 17, 18, 19]]

    selected n_to_select elements from each sequence
    selected = [[0, 4], [7, 9], [13, 14], [16, 18]]

    output, n_to_select lists of length seq_length / n_from_select:
    output = [[0, 7, 13, 16], [4, 9, 14, 18]]

    :param seq_length: length of sequence, say 10
    :param n_to_select: number of elements to select
    :param n_from_select: number of consequent elements
    :return:
    """
    random.seed(seed)
    idxs = [[] for _ in range(n_to_select)]
    for i in range(seq_length // n_from_select):
        ints = random.sample(range(n_from_select), n_to_select)
        for j in range(n_to_select):
            idxs[j].append(i * n_from_select + ints[j])
    return idxs

def read_json(file_name, suppress_console_info=False):
    """
    Read JSON

    :param file_name: input JSON path
    :param suppress_console_info: toggle console printing
    :return: dictionary from JSON
    """
    with open(file_name, 'r') as f:
        data = json.load(f)
        if not suppress_console_info:
            print("Read from:", file_name)
    return data

def get_image_file_names(data, suppress_console_info=False):# ok
    """
    Get list of image file names

    :param data: original data from JSON
    :param suppress_console_info: toggle console printing
    :return: list of strings (file names)
    """

    file_names = []
    for img in data['images']:
        image_name = img["image_name"]
        sample_id = img["sample_id"]
        path_data = f'{sample_id}/{image_name}'
        file_names.append(path_data)
    if not suppress_console_info:
        print("Total number of files:", len(file_names))
    return file_names

def get_images(file_names, args):
    transform = transforms.Compose([
        transforms.Resize(224),
        transforms.CenterCrop(224),
        transforms.ToTensor(),
        transforms.Normalize((0.48145466, 0.4578275, 0.40821073), (0.26862954, 0.26130258, 0.27577711))
    ])
    imgs = []
    for i in range(len(file_names)):

        img = np.array(transform(Image.open(os.path.join(args.imgs_folder, file_names[i]))))
        imgs.append(img)

    return np.array(imgs)

def get_captions(data, suppress_console_info=False):
    """
    Get list of formatted captions
    :param data: original data from JSON
    :return: list of strings (captions)
    """
    def format_caption(string):
        return string.replace('.', '').replace(',', '').replace('!', '').replace('?', '').lower()

    captions = []
    augmented_captions_rb = []
    augmented_captions_bt_prob = []
    augmented_captions_bt_chain = []
    for img in data['images']:
        for sent in img['sentences']:
            captions.append(format_caption(sent['raw']))
            try:
                augmented_captions_rb.append(format_caption(sent['aug_rb']))
            except:
                pass
            try:
                augmented_captions_bt_prob.append(format_caption(sent['aug_bt_prob']))
            except:
                pass
            try:
                augmented_captions_bt_chain.append(format_caption(sent['aug_bt_chain']))
            except:
                pass
    if not suppress_console_info:
        logger.info("Total number of captions:{}", len(captions))
        logger.info("Total number of augmented captions RB:{}", len(augmented_captions_rb))
        logger.info("Total number of augmented captions BT (prob):{}", len(augmented_captions_bt_prob))
        logger.info("Total number of augmented captions BT (chain):{}", len(augmented_captions_bt_chain))
    return captions, augmented_captions_rb, augmented_captions_bt_prob, augmented_captions_bt_chain

def get_labels(data, suppress_console_info=False):
    """
    Get list of labels

    :param data: original data from JSON
    :param suppress_console_info: toggle console printing
    :return: list ints (labels)
    """

    labels = []
    for img in data['images']:
        labels.append(img["classcode"])
    if not suppress_console_info:
        print("Total number of labels:", len(labels))
    return labels

def remove_tokens(data):
    """
    Removes 'tokens' key from caption record, if exists; halves the size of the file

    :param data: original data
    :return: data without tokens
    """
    for img in data['images']:
        for sent in img['sentences']:
            try:
                sent.pop("tokens")
            except:
                pass
    return data

def write_json(file_name, data):
    """
    Write dictionary to JSON file

    :param file_name: output path
    :param data: dictionary
    :return: None
    """
    bn = os.path.basename(file_name)
    dn = os.path.dirname(file_name)
    name, ext = os.path.splitext(bn)
    file_name = os.path.join(dn, name + '.json')
    with open(file_name, 'w') as f:
        f.write(json.dumps(data, indent='\t'))
    print("Written to:", file_name)

def get_split_idxs(arr_len, args):
    """
    Get indexes for training, query and db subsets

    :param: arr_len: array length

    :return: indexes for training, query and db subsets
    """
    idx_all = list(range(arr_len))
    idx_train, idx_eval = split_indexes(idx_all, args.dataset_train_split)
    idx_query, idx_db = split_indexes(idx_eval, args.dataset_query_split)

    return idx_train, idx_eval, idx_query, idx_db

def split_indexes(idx_all, split):
    """
    Splits list in two parts.

    :param idx_all: array to split
    :param split: portion to split
    :return: splitted lists
    """
    idx_length = len(idx_all)
    selection_length = int(idx_length * split)

    idx_selection = sorted(random.sample(idx_all, selection_length))

    idx_rest = sorted(list(set(idx_all).difference(set(idx_selection))))

    return idx_selection, idx_rest

def get_caption_idxs(idx_train, idx_query, idx_db):
    """
    Get caption indexes.

    :param: idx_train: train image (and label) indexes
    :param: idx_query: query image (and label) indexes
    :param: idx_db: db image (and label) indexes

    :return: caption indexes for corresponding index sets
    """
    idx_train_cap = get_caption_idxs_from_img_idxs(idx_train, num=5)
    idx_query_cap = get_caption_idxs_from_img_idxs(idx_query, num=5)
    idx_db_cap = get_caption_idxs_from_img_idxs(idx_db)
    return idx_train_cap, idx_query_cap, idx_db_cap

def get_caption_idxs_from_img_idxs(img_idxs, num=5):
    """
    Get caption indexes. There are 5 captions for each image (and label).
    Say, img indexes - [0, 10, 100]
    Then, caption indexes - [0, 1, 2, 3, 4, 50, 51, 52, 53, 54, 100, 501, 502, 503, 504]

    :param: img_idxs: image (and label) indexes

    :return: caption indexes
    """
    caption_idxs = []
    for idx in img_idxs:
        for i in range(num):  # each image has 5 captions
            caption_idxs.append(idx * num + i)
    return caption_idxs

def split_data(images, captions, labels, captions_aug, images_aug, args):
    """
    Split dataset to get training, query and db subsets

    :param: images: image embeddings array
    :param: captions: caption embeddings array
    :param: labels: labels array
    :param: captions_aug: augmented caption embeddings
    :param: images_aug: augmented image embeddings

    :return: tuples of (images, captions, labels), each element is array
    """
    idx_tr, idx_q, idx_db = get_split_idxs(len(images), args)
    idx_tr_cap, idx_q_cap, idx_db_cap = get_caption_idxs(idx_tr, idx_q, idx_db)

    train = images[idx_tr], captions[idx_tr_cap], labels[idx_tr], (idx_tr, idx_tr_cap), captions_aug[idx_tr_cap], \
                images_aug[idx_tr]
    query = images[idx_q], captions[idx_q_cap], labels[idx_q], (idx_q, idx_q_cap), captions_aug[idx_q_cap], \
                images_aug[idx_q]
    db = images[idx_db], captions[idx_db_cap], labels[idx_db], (idx_db, idx_db_cap), captions_aug[idx_db_cap], \
             images_aug[idx_db]

    return train, query, db

def select_idxs(seq_length, n_to_select, n_from_select, seed=42):
    """
    Select n_to_select indexes from each consequent n_from_select indexes from range with length seq_length, split
    selected indexes to separate arrays

    Example:

    seq_length = 20
    n_from_select = 5
    n_to_select = 2

    input, range of length seq_length:
    range = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]

    sequences of length n_from_select:
    sequences = [[0, 1, 2, 3, 4], [5, 6, 7, 8, 9], [10, 11, 12, 13, 14], [15, 16, 17, 18, 19]]

    selected n_to_select elements from each sequence
    selected = [[0, 4], [7, 9], [13, 14], [16, 18]]

    output, n_to_select lists of length seq_length / n_from_select:
    output = [[0, 7, 13, 16], [4, 9, 14, 18]]

    :param seq_length: length of sequence, say 10
    :param n_to_select: number of elements to select
    :param n_from_select: number of consequent elements
    :return:
    """
    random.seed(seed)
    idxs = [[] for _ in range(n_to_select)]
    for i in range(seq_length // n_from_select):
        ints = random.sample(range(n_from_select), n_to_select)
        for j in range(n_to_select):
            idxs[j].append(i * n_from_select + ints[j])
    return idxs

class AbstractDataset(torch.utils.data.Dataset):

    def __init__(self, images, captions, labels, targets, idxs):

        self.image_replication_factor = 1  # default value, how many times we need to replicate image

        self.images = images
        self.captions = captions
        self.labels = labels
        self.targets = targets

        self.idxs = np.array(idxs[0])


    def __getitem__(self, index):
        return

    def __len__(self):
        return

class CISENDataset(torch.utils.data.Dataset):
    """
    Class for dataset representation.
    Each image has 5 corresponding captions
    Duplet dataset sample - img-txt (image and corresponding caption)
    """
    def __init__(self, images, captions, args):
        """
        Initialization.
        :param images: image embeddings vector
        :param captions: captions embeddings vector
        :param labels: labels vector
        """
        super().__init__()

        self.images = images
        self.captions = captions
        # self.targets = targets
        # self.labels = labels

        self.word_len = args.word_len

    def __getitem__(self, index):
        """
        Returns a tuple (img, txt, label) - image and corresponding caption
        :param index: index of sample
        :return: tuple (img, txt, label)
        """
        return (
            torch.from_numpy(self.images[index].astype('float32')),
            torch.from_numpy(np.array(tokenize(self.captions[index], self.word_len).squeeze(0)).astype('int64'))
            # ,torch.from_numpy(self.targets[index])
        )

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


class DatasetDuplet(AbstractDataset):
    """
    Class for dataset representation.
    Each image has 5 corresponding captions
    Duplet dataset sample - img-txt (image and corresponding caption)
    """
    def __init__(self, images, captions, labels, targets, idxs, args):
        """
        Initialization.
        :param images: image embeddings vector
        :param captions: captions embeddings vector
        :param labels: labels vector
        """
        super().__init__(images, captions, labels, targets, idxs)

        self.word_len = args.word_len

    def __getitem__(self, index):
        """
        Returns a tuple (img, txt, label) - image and corresponding caption
        :param index: index of sample
        :return: tuple (img, txt, label)
        """
        return (
            index,
            torch.from_numpy(self.images[index].astype('float32')),
            torch.from_numpy(np.array(tokenize(self.captions[index] + self.captions[index], self.word_len).squeeze(0)).astype('int64')),
            self.labels[index],
            self.targets[index]
        )

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

class ModifiedDatasetDuplet(AbstractDataset):
    """
    Class for dataset representation.

    Each image has 5 corresponding captions

    Duplet dataset sample - img-txt (image and corresponding caption)
    """

    def __init__(self, images, captions, labels, targets, idxs, args):
        """
        Initialization.

        :param images: image embeddings vector
        :param captions: captions embeddings vector
        :param labels: labels vector
        """
        super().__init__(images, captions, labels, targets, idxs)


    def __getitem__(self, index):
        """
        Returns a tuple (img, txt, label) - image and corresponding caption

        :param index: index of sample
        :return: tuple (img, txt, label)
        """
        text = text_tokenize(self.captions[index], return_tensors='pt', padding='max_length', truncation='longest_first')['input_ids']
        return (
            index,
            torch.from_numpy(self.images[index].astype('float32')),
            torch.from_numpy(np.array(text_tokenize(self.captions[index], return_tensors='pt', padding='max_length', truncation='longest_first')['input_ids']).astype('int64')),
            self.labels[index],
            self.targets[index]
        )

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