pytorch-image-models/timm/data/parsers/parser_image_in_tar.py

""" A dataset parser that reads tarfile based datasets

This parser can read and extract image samples from:
* a single tar of image files
* a folder of multiple tarfiles containing imagefiles
* a tar of tars containing image files

Labels are based on the combined folder and/or tar name structure.

Hacked together by / Copyright 2020 Ross Wightman
"""
import os
import tarfile
import pickle
import logging
import numpy as np
from glob import glob
from typing import List, Dict

from timm.utils.misc import natural_key

from .parser import Parser
from .class_map import load_class_map
from .constants import IMG_EXTENSIONS


_logger = logging.getLogger(__name__)
CACHE_FILENAME_SUFFIX = '_tarinfos.pickle'


class TarState:

    def __init__(self, tf: tarfile.TarFile = None, ti: tarfile.TarInfo = None):
        self.tf: tarfile.TarFile = tf
        self.ti: tarfile.TarInfo = ti
        self.children: Dict[str, TarState] = {}  # child states (tars within tars)

    def reset(self):
        self.tf = None


def _extract_tarinfo(tf: tarfile.TarFile, parent_info: Dict, extensions=IMG_EXTENSIONS):
    sample_count = 0
    for i, ti in enumerate(tf):
        if not ti.isfile():
            continue
        dirname, basename = os.path.split(ti.path)
        name, ext = os.path.splitext(basename)
        ext = ext.lower()
        if ext == '.tar':
            with tarfile.open(fileobj=tf.extractfile(ti), mode='r|') as ctf:
                child_info = dict(
                    name=ti.name, path=os.path.join(parent_info['path'], name), ti=ti, children=[], samples=[])
                sample_count += _extract_tarinfo(ctf, child_info, extensions=extensions)
                _logger.debug(f'{i}/?. Extracted child tarinfos from {ti.name}. {len(child_info["samples"])} images.')
                parent_info['children'].append(child_info)
        elif ext in extensions:
            parent_info['samples'].append(ti)
            sample_count += 1
    return sample_count


def extract_tarinfos(root, class_name_to_idx=None, cache_tarinfo=None, extensions=IMG_EXTENSIONS, sort=True):
    root_is_tar = False
    if os.path.isfile(root):
        assert os.path.splitext(root)[-1].lower() == '.tar'
        tar_filenames = [root]
        root, root_name = os.path.split(root)
        root_name = os.path.splitext(root_name)[0]
        root_is_tar = True
    else:
        root_name = root.strip(os.path.sep).split(os.path.sep)[-1]
        tar_filenames = glob(os.path.join(root, '*.tar'), recursive=True)
    num_tars = len(tar_filenames)
    tar_bytes = sum([os.path.getsize(f) for f in tar_filenames])
    assert num_tars, f'No .tar files found at specified path ({root}).'

    _logger.info(f'Scanning {tar_bytes/1024**2:.2f}MB of tar files...')
    info = dict(tartrees=[])
    cache_path = ''
    if cache_tarinfo is None:
        cache_tarinfo = True if tar_bytes > 10*1024**3 else False  # FIXME magic number, 10GB
    if cache_tarinfo:
        cache_filename = '_' + root_name + CACHE_FILENAME_SUFFIX
        cache_path = os.path.join(root, cache_filename)
    if os.path.exists(cache_path):
        _logger.info(f'Reading tar info from cache file {cache_path}.')
        with open(cache_path, 'rb') as pf:
            info = pickle.load(pf)
        assert len(info['tartrees']) == num_tars, "Cached tartree len doesn't match number of tarfiles"
    else:
        for i, fn in enumerate(tar_filenames):
            path = '' if root_is_tar else os.path.splitext(os.path.basename(fn))[0]
            with tarfile.open(fn, mode='r|') as tf:  # tarinfo scans done in streaming mode
                parent_info = dict(name=os.path.relpath(fn, root), path=path, ti=None, children=[], samples=[])
                num_samples = _extract_tarinfo(tf, parent_info, extensions=extensions)
                num_children = len(parent_info["children"])
                _logger.debug(
                    f'{i}/{num_tars}. Extracted tarinfos from {fn}. {num_children} children, {num_samples} samples.')
            info['tartrees'].append(parent_info)
        if cache_path:
            _logger.info(f'Writing tar info to cache file {cache_path}.')
            with open(cache_path, 'wb') as pf:
                pickle.dump(info, pf)

    samples = []
    labels = []
    build_class_map = False
    if class_name_to_idx is None:
        build_class_map = True

    # Flatten tartree info into lists of samples and targets w/ targets based on label id via
    # class map arg or from unique paths.
    # NOTE: currently only flattening up to two-levels, filesystem .tars and then one level of sub-tar children
    # this covers my current use cases and keeps things a little easier to test for now.
    tarfiles = []

    def _label_from_paths(*path, leaf_only=True):
        path = os.path.join(*path).strip(os.path.sep)
        return path.split(os.path.sep)[-1] if leaf_only else path.replace(os.path.sep, '_')

    def _add_samples(info, fn):
        added = 0
        for s in info['samples']:
            label = _label_from_paths(info['path'], os.path.dirname(s.path))
            if not build_class_map and label not in class_name_to_idx:
                continue
            samples.append((s, fn, info['ti']))
            labels.append(label)
            added += 1
        return added

    _logger.info(f'Collecting samples and building tar states.')
    for parent_info in info['tartrees']:
        # if tartree has children, we assume all samples are at the child level
        tar_name = None if root_is_tar else parent_info['name']
        tar_state = TarState()
        parent_added = 0
        for child_info in parent_info['children']:
            child_added = _add_samples(child_info, fn=tar_name)
            if child_added:
                tar_state.children[child_info['name']] = TarState(ti=child_info['ti'])
            parent_added += child_added
        parent_added += _add_samples(parent_info, fn=tar_name)
        if parent_added:
            tarfiles.append((tar_name, tar_state))
    del info

    if build_class_map:
        # build class index
        sorted_labels = list(sorted(set(labels), key=natural_key))
        class_name_to_idx = {c: idx for idx, c in enumerate(sorted_labels)}

    _logger.info(f'Mapping targets and sorting samples.')
    samples_and_targets = [(s, class_name_to_idx[l]) for s, l in zip(samples, labels) if l in class_name_to_idx]
    if sort:
        samples_and_targets = sorted(samples_and_targets, key=lambda k: natural_key(k[0][0].path))
    samples, targets = zip(*samples_and_targets)
    samples = np.array(samples)
    targets = np.array(targets)
    _logger.info(f'Finished processing {len(samples)} samples across {len(tarfiles)} tar files.')
    return samples, targets, class_name_to_idx, tarfiles


class ParserImageInTar(Parser):
    """ Multi-tarfile dataset parser where there is one .tar file per class
    """

    def __init__(self, root, class_map='', cache_tarfiles=True, cache_tarinfo=None):
        super().__init__()

        class_name_to_idx = None
        if class_map:
            class_name_to_idx = load_class_map(class_map, root)
        self.root = root
        self.samples, self.targets, self.class_name_to_idx, tarfiles = extract_tarinfos(
            self.root,
            class_name_to_idx=class_name_to_idx,
            cache_tarinfo=cache_tarinfo,
            extensions=IMG_EXTENSIONS)
        self.class_idx_to_name = {v: k for k, v in self.class_name_to_idx.items()}
        if len(tarfiles) == 1 and tarfiles[0][0] is None:
            self.root_is_tar = True
            self.tar_state = tarfiles[0][1]
        else:
            self.root_is_tar = False
            self.tar_state = dict(tarfiles)
        self.cache_tarfiles = cache_tarfiles

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

    def __getitem__(self, index):
        sample = self.samples[index]
        target = self.targets[index]
        sample_ti, parent_fn, child_ti = sample
        parent_abs = os.path.join(self.root, parent_fn) if parent_fn else self.root

        tf = None
        cache_state = None
        if self.cache_tarfiles:
            cache_state = self.tar_state if self.root_is_tar else self.tar_state[parent_fn]
            tf = cache_state.tf
        if tf is None:
            tf = tarfile.open(parent_abs)
            if self.cache_tarfiles:
                cache_state.tf = tf
        if child_ti is not None:
            ctf = cache_state.children[child_ti.name].tf if self.cache_tarfiles else None
            if ctf is None:
                ctf = tarfile.open(fileobj=tf.extractfile(child_ti))
                if self.cache_tarfiles:
                    cache_state.children[child_ti.name].tf = ctf
            tf = ctf

        return tf.extractfile(sample_ti), target

    def _filename(self, index, basename=False, absolute=False):
        filename = self.samples[index][0].name
        if basename:
            filename = os.path.basename(filename)
        return filename