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train_transformer.py
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train_transformer.py
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
"""
DETR Training Script.
This script is a simplified version of the training script in detectron2/tools.
"""
import os
import sys
import itertools
import time
from typing import Any, Dict, List, Set
import torch
from fvcore.nn.precise_bn import get_bn_modules
import detectron2.utils.comm as comm
from detectron2.checkpoint import DetectionCheckpointer
from detectron2.config import get_cfg
from detectron2.data import MetadataCatalog, build_detection_train_loader
from detectron2.engine import DefaultTrainer, default_argument_parser, default_setup, launch
from detectron2.evaluation import COCOEvaluator, verify_results
from detectron2.engine import hooks
from detectron2.modeling import build_model
from detectron2.solver.build import maybe_add_gradient_clipping
from yolov7.data.dataset_mapper import DetrDatasetMapper
from yolov7.config import add_yolo_config
from yolov7.optimizer import build_optimizer_mapper
class Trainer(DefaultTrainer):
"""
Extension of the Trainer class adapted to DETR.
"""
@classmethod
def build_evaluator(cls, cfg, dataset_name, output_folder=None):
"""
Create evaluator(s) for a given dataset.
This uses the special metadata "evaluator_type" associated with each builtin dataset.
For your own dataset, you can simply create an evaluator manually in your
script and do not have to worry about the hacky if-else logic here.
"""
if output_folder is None:
output_folder = os.path.join(cfg.OUTPUT_DIR, "inference")
return COCOEvaluator(dataset_name, cfg, True, output_folder)
@classmethod
def build_train_loader(cls, cfg):
if "detr" in cfg.MODEL.META_ARCHITECTURE.lower():
mapper = DetrDatasetMapper(cfg, True)
else:
mapper = None
return build_detection_train_loader(cfg, mapper=mapper)
@classmethod
def build_optimizer(cls, cfg, model):
# params: List[Dict[str, Any]] = []
# memo: Set[torch.nn.parameter.Parameter] = set()
# for key, value in model.named_parameters(recurse=True):
# if not value.requires_grad:
# continue
# # Avoid duplicating parameters
# if value in memo:
# continue
# memo.add(value)
# lr = cfg.SOLVER.BASE_LR
# weight_decay = cfg.SOLVER.WEIGHT_DECAY
# if "backbone" in key:
# lr = lr * cfg.SOLVER.BACKBONE_MULTIPLIER
# params += [{"params": [value], "lr": lr,
# "weight_decay": weight_decay}]
# # optim: the optimizer class
# def maybe_add_full_model_gradient_clipping(optim):
# # detectron2 doesn't have full model gradient clipping now
# clip_norm_val = cfg.SOLVER.CLIP_GRADIENTS.CLIP_VALUE
# enable = (
# cfg.SOLVER.CLIP_GRADIENTS.ENABLED
# and cfg.SOLVER.CLIP_GRADIENTS.CLIP_TYPE == "full_model"
# and clip_norm_val > 0.0
# )
# class FullModelGradientClippingOptimizer(optim):
# def step(self, closure=None):
# all_params = itertools.chain(
# *[x["params"] for x in self.param_groups])
# torch.nn.utils.clip_grad_norm_(all_params, clip_norm_val)
# super().step(closure=closure)
# return FullModelGradientClippingOptimizer if enable else optim
# optimizer_type = cfg.SOLVER.OPTIMIZER
# if optimizer_type == "SGD":
# optimizer = maybe_add_full_model_gradient_clipping(torch.optim.SGD)(
# params, cfg.SOLVER.BASE_LR, momentum=cfg.SOLVER.MOMENTUM
# )
# elif optimizer_type == "ADAMW":
# optimizer = maybe_add_full_model_gradient_clipping(torch.optim.AdamW)(
# params, cfg.SOLVER.BASE_LR
# )
# else:
# raise NotImplementedError(f"no optimizer type {optimizer_type}")
# if not cfg.SOLVER.CLIP_GRADIENTS.CLIP_TYPE == "full_model":
# optimizer = maybe_add_gradient_clipping(cfg, optimizer)
# return optimizer
return build_optimizer_mapper(cfg, model)
def build_hooks(self):
"""
Build a list of default hooks, including timing, evaluation,
checkpointing, lr scheduling, precise BN, writing events.
Returns:
list[HookBase]:
"""
cfg = self.cfg.clone()
cfg.defrost()
cfg.DATALOADER.NUM_WORKERS = 0 # save some memory and time for PreciseBN
ret = [
hooks.IterationTimer(),
hooks.LRScheduler(),
hooks.PreciseBN(
# Run at the same freq as (but before) evaluation.
cfg.TEST.EVAL_PERIOD,
self.model,
# Build a new data loader to not affect training
self.build_train_loader(cfg),
cfg.TEST.PRECISE_BN.NUM_ITER,
)
if cfg.TEST.PRECISE_BN.ENABLED and get_bn_modules(self.model)
else None,
]
# Do PreciseBN before checkpointer, because it updates the model and need to
# be saved by checkpointer.
# This is not always the best: if checkpointing has a different frequency,
# some checkpoints may have more precise statistics than others.
if comm.is_main_process():
ret.append(hooks.PeriodicCheckpointer(
self.checkpointer, cfg.SOLVER.CHECKPOINT_PERIOD))
def test_and_save_results():
self._last_eval_results = self.test(self.cfg, self.model)
return self._last_eval_results
# Do evaluation after checkpointer, because then if it fails,
# we can use the saved checkpoint to debug.
ret.append(hooks.EvalHook(cfg.TEST.EVAL_PERIOD, test_and_save_results))
if comm.is_main_process():
# Here the default print/log frequency of each writer is used.
# run writers in the end, so that evaluation metrics are written
ret.append(hooks.PeriodicWriter(self.build_writers(), period=200))
return ret
@classmethod
def build_model(cls, cfg):
# remove print model
model = build_model(cfg)
return model
def setup(args):
"""
Create configs and perform basic setups.
"""
cfg = get_cfg()
add_yolo_config(cfg)
cfg.merge_from_file(args.config_file)
cfg.merge_from_list(args.opts)
cfg.freeze()
default_setup(cfg, args)
return cfg
def main(args):
cfg = setup(args)
if args.eval_only:
model = Trainer.build_model(cfg)
DetectionCheckpointer(model, save_dir=cfg.OUTPUT_DIR).resume_or_load(
cfg.MODEL.WEIGHTS, resume=args.resume)
res = Trainer.test(cfg, model)
if comm.is_main_process():
verify_results(cfg, res)
return res
trainer = Trainer(cfg)
trainer.resume_or_load(resume=args.resume)
return trainer.train()
if __name__ == "__main__":
args = default_argument_parser().parse_args()
print("Command Line Args:", args)
launch(
main,
args.num_gpus,
num_machines=args.num_machines,
machine_rank=args.machine_rank,
dist_url=args.dist_url,
args=(args,),
)