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engine.py
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engine.py
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
"""
Train and eval functions used in main.py
"""
import math
import os
import sys
from typing import Iterable
from util.utils import slprint, to_device
import torch
import util.misc as utils
from datasets.coco_eval import CocoEvaluator
from datasets.panoptic_eval import PanopticEvaluator
def train_one_epoch(model: torch.nn.Module, criterion: torch.nn.Module,
data_loader: Iterable, optimizer: torch.optim.Optimizer,
device: torch.device, epoch: int, max_norm: float = 0,
wo_class_error=False, lr_scheduler=None, args=None, logger=None, ema_m=None):
scaler = torch.cuda.amp.GradScaler(enabled=args.amp)
try:
need_tgt_for_training = args.use_dn
except:
need_tgt_for_training = False
model.train()
criterion.train()
metric_logger = utils.MetricLogger(delimiter=" ")
metric_logger.add_meter('lr', utils.SmoothedValue(window_size=1, fmt='{value:.6f}'))
if not wo_class_error:
metric_logger.add_meter('class_error', utils.SmoothedValue(window_size=1, fmt='{value:.2f}'))
header = 'Epoch: [{}]'.format(epoch)
print_freq = 10
_cnt = 0
for samples, targets in metric_logger.log_every(data_loader, print_freq, header, logger=logger):
samples = samples.to(device)
targets = [{k: v.to(device) for k, v in t.items()} for t in targets]
with torch.cuda.amp.autocast(enabled=args.amp):
if need_tgt_for_training:
outputs = model(samples, targets)
else:
outputs = model(samples)
loss_dict = criterion(outputs, targets)
weight_dict = criterion.weight_dict
losses = sum(loss_dict[k] * weight_dict[k] for k in loss_dict.keys() if k in weight_dict)
# reduce losses over all GPUs for logging purposes
loss_dict_reduced = utils.reduce_dict(loss_dict)
loss_dict_reduced_unscaled = {f'{k}_unscaled': v
for k, v in loss_dict_reduced.items()}
loss_dict_reduced_scaled = {k: v * weight_dict[k]
for k, v in loss_dict_reduced.items() if k in weight_dict}
losses_reduced_scaled = sum(loss_dict_reduced_scaled.values())
loss_value = losses_reduced_scaled.item()
if not math.isfinite(loss_value):
print("Loss is {}, stopping training".format(loss_value))
print(loss_dict_reduced)
sys.exit(1)
# amp backward function
if args.amp:
optimizer.zero_grad()
scaler.scale(losses).backward()
if max_norm > 0:
scaler.unscale_(optimizer)
torch.nn.utils.clip_grad_norm_(model.parameters(), max_norm)
scaler.step(optimizer)
scaler.update()
else:
# original backward function
optimizer.zero_grad()
losses.backward()
if max_norm > 0:
torch.nn.utils.clip_grad_norm_(model.parameters(), max_norm)
optimizer.step()
if args.onecyclelr:
lr_scheduler.step()
if args.use_ema:
if epoch >= args.ema_epoch:
ema_m.update(model)
metric_logger.update(loss=loss_value, **loss_dict_reduced_scaled, **loss_dict_reduced_unscaled)
if 'class_error' in loss_dict_reduced:
metric_logger.update(class_error=loss_dict_reduced['class_error'])
metric_logger.update(lr=optimizer.param_groups[0]["lr"])
_cnt += 1
if args.debug:
if _cnt % 15 == 0:
print("BREAK!"*5)
break
if getattr(criterion, 'loss_weight_decay', False):
criterion.loss_weight_decay(epoch=epoch)
if getattr(criterion, 'tuning_matching', False):
criterion.tuning_matching(epoch)
# gather the stats from all processes
metric_logger.synchronize_between_processes()
print("Averaged stats:", metric_logger)
resstat = {k: meter.global_avg for k, meter in metric_logger.meters.items() if meter.count > 0}
if getattr(criterion, 'loss_weight_decay', False):
resstat.update({f'weight_{k}': v for k,v in criterion.weight_dict.items()})
return resstat
@torch.no_grad()
def evaluate(model, criterion, postprocessors, data_loader, base_ds, device, output_dir, wo_class_error=False, args=None, logger=None):
try:
need_tgt_for_training = args.use_dn
except:
need_tgt_for_training = False
model.eval()
criterion.eval()
metric_logger = utils.MetricLogger(delimiter=" ")
if not wo_class_error:
metric_logger.add_meter('class_error', utils.SmoothedValue(window_size=1, fmt='{value:.2f}'))
header = 'Test:'
iou_types = tuple(k for k in ('segm', 'bbox') if k in postprocessors.keys())
useCats = True
try:
useCats = args.useCats
except:
useCats = True
if not useCats:
print("useCats: {} !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!".format(useCats))
coco_evaluator = CocoEvaluator(base_ds, iou_types, useCats=useCats)
# coco_evaluator.coco_eval[iou_types[0]].params.iouThrs = [0, 0.1, 0.5, 0.75]
panoptic_evaluator = None
if 'panoptic' in postprocessors.keys():
panoptic_evaluator = PanopticEvaluator(
data_loader.dataset.ann_file,
data_loader.dataset.ann_folder,
output_dir=os.path.join(output_dir, "panoptic_eval"),
)
_cnt = 0
output_state_dict = {} # for debug only
for samples, targets in metric_logger.log_every(data_loader, 10, header, logger=logger):
samples = samples.to(device)
# targets = [{k: v.to(device) for k, v in t.items()} for t in targets]
targets = [{k: to_device(v, device) for k, v in t.items()} for t in targets]
with torch.cuda.amp.autocast(enabled=args.amp):
if need_tgt_for_training:
outputs = model(samples, targets)
else:
outputs = model(samples)
# outputs = model(samples)
loss_dict = criterion(outputs, targets)
weight_dict = criterion.weight_dict
# reduce losses over all GPUs for logging purposes
loss_dict_reduced = utils.reduce_dict(loss_dict)
loss_dict_reduced_scaled = {k: v * weight_dict[k]
for k, v in loss_dict_reduced.items() if k in weight_dict}
loss_dict_reduced_unscaled = {f'{k}_unscaled': v
for k, v in loss_dict_reduced.items()}
metric_logger.update(loss=sum(loss_dict_reduced_scaled.values()),
**loss_dict_reduced_scaled,
**loss_dict_reduced_unscaled)
if 'class_error' in loss_dict_reduced:
metric_logger.update(class_error=loss_dict_reduced['class_error'])
orig_target_sizes = torch.stack([t["orig_size"] for t in targets], dim=0)
results = postprocessors['bbox'](outputs, orig_target_sizes)
# [scores: [100], labels: [100], boxes: [100, 4]] x B
if 'segm' in postprocessors.keys():
target_sizes = torch.stack([t["size"] for t in targets], dim=0)
results = postprocessors['segm'](results, outputs, orig_target_sizes, target_sizes)
res = {target['image_id'].item(): output for target, output in zip(targets, results)}
if coco_evaluator is not None:
coco_evaluator.update(res)
if panoptic_evaluator is not None:
res_pano = postprocessors["panoptic"](outputs, target_sizes, orig_target_sizes)
for i, target in enumerate(targets):
image_id = target["image_id"].item()
file_name = f"{image_id:012d}.png"
res_pano[i]["image_id"] = image_id
res_pano[i]["file_name"] = file_name
panoptic_evaluator.update(res_pano)
if args.save_results:
# res_score = outputs['res_score']
# res_label = outputs['res_label']
# res_bbox = outputs['res_bbox']
# res_idx = outputs['res_idx']
for i, (tgt, res, outbbox) in enumerate(zip(targets, results, outputs['pred_boxes'])):
"""
pred vars:
K: number of bbox pred
score: Tensor(K),
label: list(len: K),
bbox: Tensor(K, 4)
idx: list(len: K)
tgt: dict.
"""
# compare gt and res (after postprocess)
gt_bbox = tgt['boxes']
gt_label = tgt['labels']
gt_info = torch.cat((gt_bbox, gt_label.unsqueeze(-1)), 1)
# img_h, img_w = tgt['orig_size'].unbind()
# scale_fct = torch.stack([img_w, img_h, img_w, img_h], dim=0)
# _res_bbox = res['boxes'] / scale_fct
_res_bbox = outbbox
_res_prob = res['scores']
_res_label = res['labels']
res_info = torch.cat((_res_bbox, _res_prob.unsqueeze(-1), _res_label.unsqueeze(-1)), 1)
# import ipdb;ipdb.set_trace()
if 'gt_info' not in output_state_dict:
output_state_dict['gt_info'] = []
output_state_dict['gt_info'].append(gt_info.cpu())
if 'res_info' not in output_state_dict:
output_state_dict['res_info'] = []
output_state_dict['res_info'].append(res_info.cpu())
# # for debug only
# import random
# if random.random() > 0.7:
# print("Now let's break")
# break
_cnt += 1
if args.debug:
if _cnt % 15 == 0:
print("BREAK!"*5)
break
if args.save_results:
import os.path as osp
# output_state_dict['gt_info'] = torch.cat(output_state_dict['gt_info'])
# output_state_dict['res_info'] = torch.cat(output_state_dict['res_info'])
savepath = osp.join(args.output_dir, 'results-{}.pkl'.format(utils.get_rank()))
print("Saving res to {}".format(savepath))
torch.save(output_state_dict, savepath)
# gather the stats from all processes
metric_logger.synchronize_between_processes()
print("Averaged stats:", metric_logger)
if coco_evaluator is not None:
coco_evaluator.synchronize_between_processes()
if panoptic_evaluator is not None:
panoptic_evaluator.synchronize_between_processes()
# accumulate predictions from all images
if coco_evaluator is not None:
coco_evaluator.accumulate()
coco_evaluator.summarize()
panoptic_res = None
if panoptic_evaluator is not None:
panoptic_res = panoptic_evaluator.summarize()
stats = {k: meter.global_avg for k, meter in metric_logger.meters.items() if meter.count > 0}
if coco_evaluator is not None:
if 'bbox' in postprocessors.keys():
stats['coco_eval_bbox'] = coco_evaluator.coco_eval['bbox'].stats.tolist()
if 'segm' in postprocessors.keys():
stats['coco_eval_masks'] = coco_evaluator.coco_eval['segm'].stats.tolist()
if panoptic_res is not None:
stats['PQ_all'] = panoptic_res["All"]
stats['PQ_th'] = panoptic_res["Things"]
stats['PQ_st'] = panoptic_res["Stuff"]
return stats, coco_evaluator
@torch.no_grad()
def test(model, criterion, postprocessors, data_loader, base_ds, device, output_dir, wo_class_error=False, args=None, logger=None):
model.eval()
criterion.eval()
metric_logger = utils.MetricLogger(delimiter=" ")
# if not wo_class_error:
# metric_logger.add_meter('class_error', utils.SmoothedValue(window_size=1, fmt='{value:.2f}'))
header = 'Test:'
iou_types = tuple(k for k in ('segm', 'bbox') if k in postprocessors.keys())
# coco_evaluator = CocoEvaluator(base_ds, iou_types)
# coco_evaluator.coco_eval[iou_types[0]].params.iouThrs = [0, 0.1, 0.5, 0.75]
panoptic_evaluator = None
if 'panoptic' in postprocessors.keys():
panoptic_evaluator = PanopticEvaluator(
data_loader.dataset.ann_file,
data_loader.dataset.ann_folder,
output_dir=os.path.join(output_dir, "panoptic_eval"),
)
final_res = []
for samples, targets in metric_logger.log_every(data_loader, 10, header, logger=logger):
samples = samples.to(device)
# targets = [{k: v.to(device) for k, v in t.items()} for t in targets]
targets = [{k: to_device(v, device) for k, v in t.items()} for t in targets]
outputs = model(samples)
# loss_dict = criterion(outputs, targets)
# weight_dict = criterion.weight_dict
# # reduce losses over all GPUs for logging purposes
# loss_dict_reduced = utils.reduce_dict(loss_dict)
# loss_dict_reduced_scaled = {k: v * weight_dict[k]
# for k, v in loss_dict_reduced.items() if k in weight_dict}
# loss_dict_reduced_unscaled = {f'{k}_unscaled': v
# for k, v in loss_dict_reduced.items()}
# metric_logger.update(loss=sum(loss_dict_reduced_scaled.values()),
# **loss_dict_reduced_scaled,
# **loss_dict_reduced_unscaled)
# if 'class_error' in loss_dict_reduced:
# metric_logger.update(class_error=loss_dict_reduced['class_error'])
orig_target_sizes = torch.stack([t["orig_size"] for t in targets], dim=0)
results = postprocessors['bbox'](outputs, orig_target_sizes, not_to_xyxy=True)
# [scores: [100], labels: [100], boxes: [100, 4]] x B
if 'segm' in postprocessors.keys():
target_sizes = torch.stack([t["size"] for t in targets], dim=0)
results = postprocessors['segm'](results, outputs, orig_target_sizes, target_sizes)
res = {target['image_id'].item(): output for target, output in zip(targets, results)}
for image_id, outputs in res.items():
_scores = outputs['scores'].tolist()
_labels = outputs['labels'].tolist()
_boxes = outputs['boxes'].tolist()
for s, l, b in zip(_scores, _labels, _boxes):
assert isinstance(l, int)
itemdict = {
"image_id": int(image_id),
"category_id": l,
"bbox": b,
"score": s,
}
final_res.append(itemdict)
if args.output_dir:
import json
with open(args.output_dir + f'/results{args.rank}.json', 'w') as f:
json.dump(final_res, f)
return final_res