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471 lines
15 KiB
471 lines
15 KiB
import dataclasses
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from dataclasses import dataclass, field
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from typing import Any, Dict, List, Optional
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import os
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try:
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import pickle
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import random
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from pathlib import Path
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from PIL import Image, ImageFilter
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import timm
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from tqdm import tqdm
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import torch
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import torch.backends.cudnn as cudnn
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import torch.distributed as dist
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import torch.multiprocessing as mp
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import torch.nn.parallel
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import torch.optim
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import torch.utils.data
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import torch.utils.data.distributed
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import torchvision.transforms as transforms
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from augly.image import (EncodingQuality, OneOf,
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RandomBlur, RandomEmojiOverlay, RandomPixelization,
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RandomRotation, ShufflePixels)
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from augly.image.functional import overlay_emoji, overlay_image, overlay_text
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from augly.image.transforms import BaseTransform
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from augly.utils import pathmgr
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from augly.utils.base_paths import MODULE_BASE_DIR
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from augly.utils.constants import FONT_LIST_PATH, FONTS_DIR, SMILEY_EMOJI_DIR
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from pytorch_metric_learning import losses
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from pytorch_metric_learning.utils import distributed as pml_dist
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except:
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pass
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def dataclass_from_dict(klass, d):
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try:
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fieldtypes = {f.name: f.type for f in dataclasses.fields(klass)}
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return klass(**{f: dataclass_from_dict(fieldtypes[f], d[f]) for f in d})
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except:
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return d # Not a dataclass field
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@dataclass
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class TrainingArguments:
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output_dir: Optional[str] = field(
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default='./output', metadata={"help": "output checkpoint saving dir."}
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)
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distributed: Optional[bool] = field(
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default=False, metadata={"help": "If true, use all gpu in your machine, else use only one gpu."}
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)
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gpu: Optional[int] = field(
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default=0, metadata={"help": "When distributed is False, use this gpu No. in your machine."}
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)
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start_epoch: Optional[int] = field(
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default=0, metadata={"help": "Start epoch number."}
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)
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epochs: Optional[int] = field(
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default=6, metadata={"help": "End epoch number."}
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)
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batch_size: Optional[int] = field(
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default=128, metadata={"help": "Total batch size in all gpu."}
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)
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init_lr: Optional[float] = field(
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default=0.1, metadata={"help": "init learning rate in SGD."}
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)
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train_data_dir: Optional[str] = field(default=None,
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metadata={"help": "The dir containing all training data image files."})
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def train_isc(model, training_args):
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from towhee.trainer.training_config import get_dataclasses_help
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print('**** TrainingArguments ****')
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get_dataclasses_help(TrainingArguments)
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training_args = dataclass_from_dict(TrainingArguments, training_args)
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if training_args.distributed is True:
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ngpus_per_node = torch.cuda.device_count()
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mp.spawn(main_worker, nprocs=ngpus_per_node, args=(ngpus_per_node, model, training_args))
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else:
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main_worker(training_args.gpu, 1, model, training_args)
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def main_worker(gpu, ngpus_per_node, model, training_args):
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rank = gpu
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world_size = ngpus_per_node
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distributed = training_args.distributed
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if distributed:
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dist.init_process_group(backend='nccl', init_method='tcp://localhost:10001',
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world_size=world_size, rank=rank)
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torch.distributed.barrier(device_ids=[rank])
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# infer learning rate before changing batch size
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init_lr = training_args.init_lr
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if distributed:
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# Apply SyncBN
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model = torch.nn.SyncBatchNorm.convert_sync_batchnorm(model)
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torch.cuda.set_device(gpu)
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model.cuda(gpu)
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batch_size = training_args.batch_size
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batch_size = int(batch_size / ngpus_per_node)
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workers = 8
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if distributed:
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model = torch.nn.parallel.DistributedDataParallel(model, device_ids=[gpu])
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memory_size = 20000
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pos_margin = 0.0
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neg_margin = 1.0
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loss_fn = losses.ContrastiveLoss(pos_margin=pos_margin, neg_margin=neg_margin)
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loss_fn = losses.CrossBatchMemory(loss_fn, embedding_size=256, memory_size=memory_size)
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loss_fn = pml_dist.DistributedLossWrapper(loss=loss_fn, device_ids=[rank])
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decay = []
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no_decay = []
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for name, param in model.named_parameters():
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if not param.requires_grad:
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continue # frozen weights
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if len(param.shape) == 1 or name.endswith(".bias") or "gain" in name:
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no_decay.append(param)
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else:
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decay.append(param)
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optim_params = [
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{'params': no_decay, 'weight_decay': 0.},
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{'params': decay, 'weight_decay': 1e-6}
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]
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momentum = 0.9
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optimizer = torch.optim.SGD(optim_params, init_lr, momentum=momentum)
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scaler = torch.cuda.amp.GradScaler()
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cudnn.benchmark = True
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train_dataset = get_dataset(training_args.train_data_dir)
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if distributed:
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train_sampler = torch.utils.data.distributed.DistributedSampler(train_dataset)
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else:
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train_sampler = None
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train_loader = torch.utils.data.DataLoader(
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train_dataset, batch_size=batch_size, shuffle=(train_sampler is None),
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num_workers=workers, pin_memory=True, sampler=train_sampler, drop_last=True)
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start_epoch = training_args.start_epoch
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epochs = training_args.epochs
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for epoch in range(start_epoch, epochs):
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if distributed:
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train_sampler.set_epoch(epoch)
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train_one_epoch(train_loader, model, loss_fn, optimizer, scaler, epoch, rank)
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if not distributed or (distributed and rank == 0):
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torch.save({
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'epoch': epoch + 1,
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'state_dict': model.state_dict(),
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'optimizer': optimizer.state_dict(),
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'training_args': training_args,
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}, f'{training_args.output_dir}/checkpoint_epoch{epoch:04d}.pth.tar')
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def train_one_epoch(train_loader, model, loss_fn, optimizer, scaler, epoch, rank):
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losses = AverageMeter('Loss', ':.4f')
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progress = tqdm(train_loader, desc=f'epoch {epoch}', leave=False, total=len(train_loader))
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model.train()
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for labels, images in progress:
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optimizer.zero_grad()
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labels = labels.cuda(rank, non_blocking=True)
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images = torch.cat([
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image for image in images
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], dim=0).cuda(rank, non_blocking=True)
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labels = torch.tile(labels, dims=(2,))
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with torch.cuda.amp.autocast():
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embeddings = model(images)
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loss = loss_fn(embeddings, labels)
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losses.update(loss.item(), images.size(0))
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scaler.scale(loss).backward()
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scaler.step(optimizer)
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scaler.update()
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progress.set_postfix(loss=losses.avg)
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class AverageMeter(object):
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"""Computes and stores the average and current value"""
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def __init__(self, name, fmt=':f'):
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self.name = name
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self.fmt = fmt
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self.reset()
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def reset(self):
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self.val = 0
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self.avg = 0
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self.sum = 0
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self.count = 0
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def update(self, val, n=1):
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self.val = val
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self.sum += val * n
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self.count += n
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self.avg = self.sum / self.count
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def __str__(self):
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fmtstr = '{name} {val' + self.fmt + '} ({avg' + self.fmt + '})'
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return fmtstr.format(**self.__dict__)
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class ISCDataset(torch.utils.data.Dataset):
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def __init__(
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self,
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paths,
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transforms,
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):
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self.paths = paths
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self.transforms = transforms
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def __len__(self):
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return len(self.paths)
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def __getitem__(self, i):
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image = Image.open(self.paths[i])
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image = self.transforms(image)
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return i, image
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class NCropsTransform:
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"""Take n random crops of one image as the query and key."""
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def __init__(self, aug_moderate, aug_hard, ncrops=2):
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self.aug_moderate = aug_moderate
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self.aug_hard = aug_hard
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self.ncrops = ncrops
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def __call__(self, x):
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return [self.aug_moderate(x)] + [self.aug_hard(x) for _ in range(self.ncrops - 1)]
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class GaussianBlur(object):
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"""Gaussian blur augmentation in SimCLR https://arxiv.org/abs/2002.05709"""
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def __init__(self, sigma=[.1, 2.]):
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self.sigma = sigma
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def __call__(self, x):
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sigma = random.uniform(self.sigma[0], self.sigma[1])
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x = x.filter(ImageFilter.GaussianBlur(radius=sigma))
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return x
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class RandomOverlayText(BaseTransform):
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def __init__(
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self,
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opacity: float = 1.0,
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p: float = 1.0,
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):
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super().__init__(p)
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self.opacity = opacity
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with open(Path(FONTS_DIR) / FONT_LIST_PATH) as f:
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font_list = [s.strip() for s in f.readlines()]
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blacklist = [
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'TypeMyMusic',
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'PainttheSky-Regular',
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]
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self.font_list = [
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f for f in font_list
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if all(_ not in f for _ in blacklist)
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]
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self.font_lens = []
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for ff in self.font_list:
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font_file = Path(MODULE_BASE_DIR) / ff.replace('.ttf', '.pkl')
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with open(font_file, 'rb') as f:
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self.font_lens.append(len(pickle.load(f)))
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def apply_transform(
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self, image: Image.Image, metadata: Optional[List[Dict[str, Any]]] = None, bboxes=None, bbox_format=None
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) -> Image.Image:
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i = random.randrange(0, len(self.font_list))
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kwargs = dict(
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font_file=Path(MODULE_BASE_DIR) / self.font_list[i],
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font_size=random.uniform(0.1, 0.3),
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color=[random.randrange(0, 256) for _ in range(3)],
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x_pos=random.uniform(0.0, 0.5),
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metadata=metadata,
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opacity=self.opacity,
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)
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try:
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for j in range(random.randrange(1, 3)):
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if j == 0:
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y_pos = random.uniform(0.0, 0.5)
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else:
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y_pos += kwargs['font_size']
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image = overlay_text(
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image,
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text=[random.randrange(0, self.font_lens[i]) for _ in range(random.randrange(5, 10))],
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y_pos=y_pos,
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**kwargs,
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)
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return image
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except OSError:
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return image
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class RandomOverlayImageAndResizedCrop(BaseTransform):
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def __init__(
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self,
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img_paths: List[Path],
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opacity_lower: float = 0.5,
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size_lower: float = 0.4,
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size_upper: float = 0.6,
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input_size: int = 224,
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moderate_scale_lower: float = 0.7,
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hard_scale_lower: float = 0.15,
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overlay_p: float = 0.05,
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p: float = 1.0,
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):
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super().__init__(p)
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self.img_paths = img_paths
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self.opacity_lower = opacity_lower
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self.size_lower = size_lower
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self.size_upper = size_upper
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self.input_size = input_size
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self.moderate_scale_lower = moderate_scale_lower
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self.hard_scale_lower = hard_scale_lower
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self.overlay_p = overlay_p
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def apply_transform(
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self, image: Image.Image, metadata: Optional[List[Dict[str, Any]]] = None, bboxes=None, bbox_format=None
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) -> Image.Image:
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if random.uniform(0.0, 1.0) < self.overlay_p:
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if random.uniform(0.0, 1.0) > 0.5:
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background = Image.open(random.choice(self.img_paths))
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overlay = image
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else:
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background = image
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overlay = Image.open(random.choice(self.img_paths))
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overlay_size = random.uniform(self.size_lower, self.size_upper)
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image = overlay_image(
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background,
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overlay=overlay,
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opacity=random.uniform(self.opacity_lower, 1.0),
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overlay_size=overlay_size,
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x_pos=random.uniform(0.0, 1.0 - overlay_size),
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y_pos=random.uniform(0.0, 1.0 - overlay_size),
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metadata=metadata,
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)
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return transforms.RandomResizedCrop(self.input_size, scale=(self.moderate_scale_lower, 1.))(image)
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else:
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return transforms.RandomResizedCrop(self.input_size, scale=(self.hard_scale_lower, 1.))(image)
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class RandomEmojiOverlay(BaseTransform):
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def __init__(
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self,
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emoji_directory: str = SMILEY_EMOJI_DIR,
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opacity: float = 1.0,
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p: float = 1.0,
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):
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super().__init__(p)
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self.emoji_directory = emoji_directory
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self.emoji_paths = pathmgr.ls(emoji_directory)
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self.opacity = opacity
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def apply_transform(
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self, image: Image.Image, metadata: Optional[List[Dict[str, Any]]] = None, bboxes=None, bbox_format=None
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) -> Image.Image:
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emoji_path = random.choice(self.emoji_paths)
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return overlay_emoji(
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image,
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emoji_path=os.path.join(self.emoji_directory, emoji_path),
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opacity=self.opacity,
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emoji_size=random.uniform(0.1, 0.3),
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x_pos=random.uniform(0.0, 1.0),
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y_pos=random.uniform(0.0, 1.0),
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metadata=metadata,
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)
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class RandomEdgeEnhance(BaseTransform):
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def __init__(
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self,
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mode=ImageFilter.EDGE_ENHANCE,
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p: float = 1.0,
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):
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super().__init__(p)
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self.mode = mode
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def apply_transform(self, image: Image.Image, *args) -> Image.Image:
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return image.filter(self.mode)
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class ShuffledAug:
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def __init__(self, aug_list):
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self.aug_list = aug_list
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def __call__(self, x):
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# without replacement
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shuffled_aug_list = random.sample(self.aug_list, len(self.aug_list))
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for op in shuffled_aug_list:
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x = op(x)
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return x
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def convert2rgb(x):
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return x.convert('RGB')
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def get_dataset(train_data_dir):
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input_size = 256
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ncrops = 2
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backbone = timm.create_model('tf_efficientnetv2_m_in21ft1k', features_only=True, pretrained=True)
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train_paths = list(Path(train_data_dir).glob('**/*.jpg'))
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aug_moderate = [
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transforms.RandomResizedCrop(input_size, scale=(0.7, 1.)),
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transforms.RandomHorizontalFlip(),
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transforms.ToTensor(),
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transforms.Normalize(mean=backbone.default_cfg['mean'], std=backbone.default_cfg['std'])
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]
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aug_list = [
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transforms.ColorJitter(0.7, 0.7, 0.7, 0.2),
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RandomPixelization(p=0.25),
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ShufflePixels(factor=0.1, p=0.25),
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OneOf([EncodingQuality(quality=q) for q in [10, 20, 30, 50]], p=0.25),
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transforms.RandomGrayscale(p=0.25),
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RandomBlur(p=0.25),
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transforms.RandomPerspective(p=0.25),
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transforms.RandomHorizontalFlip(p=0.5),
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transforms.RandomVerticalFlip(p=0.1),
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RandomOverlayText(p=0.25),
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RandomEmojiOverlay(p=0.25),
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OneOf([RandomEdgeEnhance(mode=ImageFilter.EDGE_ENHANCE),
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RandomEdgeEnhance(mode=ImageFilter.EDGE_ENHANCE_MORE)],
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p=0.25),
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]
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aug_hard = [
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RandomRotation(p=0.25),
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RandomOverlayImageAndResizedCrop(
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train_paths, opacity_lower=0.6, size_lower=0.4, size_upper=0.6,
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input_size=input_size, moderate_scale_lower=0.7, hard_scale_lower=0.15, overlay_p=0.05, p=1.0,
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),
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ShuffledAug(aug_list),
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convert2rgb,
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transforms.ToTensor(),
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transforms.RandomErasing(value='random', p=0.25),
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transforms.Normalize(mean=backbone.default_cfg['mean'], std=backbone.default_cfg['std']),
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]
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train_dataset = ISCDataset(
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train_paths,
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NCropsTransform(
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transforms.Compose(aug_moderate),
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transforms.Compose(aug_hard),
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ncrops,
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),
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)
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return train_dataset
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