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eval_pt.py
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eval_pt.py
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"""
Script for evaluating trained model on PyTorch (validate/test).
"""
import os
import time
import logging
import argparse
from sys import version_info
# from common.logger_utils import initialize_logging
from cvutil.logger import initialize_logging
from pytorch.utils import prepare_pt_context, prepare_model
from pytorch.utils import calc_net_weight_count, validate
from pytorch.utils import get_composite_metric
from pytorch.utils import report_accuracy
from pytorch.dataset_utils import get_dataset_metainfo
from pytorch.dataset_utils import get_val_data_source, get_test_data_source
from pytorch.model_stats import measure_model
from pytorchcv.models.common.model_store import get_model_metainfo_dict
def add_eval_cls_parser_arguments(parser):
"""
Create python script parameters (for eval specific subpart).
Parameters
----------
parser : ArgumentParser
ArgumentParser instance.
"""
parser.add_argument(
"--model",
type=str,
required=True,
help="type of model to use. see model_provider for options")
parser.add_argument(
"--use-pretrained",
action="store_true",
help="enable using pretrained model from github repo")
parser.add_argument(
"--resume",
type=str,
default="",
help="resume from previously saved parameters")
parser.add_argument(
"--calc-flops",
dest="calc_flops",
action="store_true",
help="calculate FLOPs")
parser.add_argument(
"--calc-flops-only",
dest="calc_flops_only",
action="store_true",
help="calculate FLOPs without quality estimation")
parser.add_argument(
"--remove-module",
action="store_true",
help="enable if stored model has module")
parser.add_argument(
"--data-subset",
type=str,
default="val",
help="data subset. options are val and test")
parser.add_argument(
"--num-gpus",
type=int,
default=0,
help="number of gpus to use")
parser.add_argument(
"-j",
"--num-data-workers",
dest="num_workers",
default=4,
type=int,
help="number of preprocessing workers")
parser.add_argument(
"--batch-size",
type=int,
default=512,
help="training batch size per device (CPU/GPU)")
parser.add_argument(
"--save-dir",
type=str,
default="",
help="directory of saved models and log-files")
parser.add_argument(
"--logging-file-name",
type=str,
default="train.log",
help="filename of training log")
parser.add_argument(
"--log-packages",
type=str,
default="torch, torchvision",
help="list of python packages for logging")
parser.add_argument(
"--log-pip-packages",
type=str,
default="",
help="list of pip packages for logging")
parser.add_argument(
"--disable-cudnn-autotune",
action="store_true",
help="disable cudnn autotune for segmentation models")
parser.add_argument(
"--show-progress",
action="store_true",
help="show progress bar")
parser.add_argument(
"--all",
action="store_true",
help="test all pretrained models for partucular dataset")
def parse_args():
"""
Parse python script parameters (common part).
Returns
-------
ArgumentParser
Resulted args.
"""
parser = argparse.ArgumentParser(
description="Evaluate a model for image classification/segmentation (PyTorch)",
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument(
"--dataset",
type=str,
default="ImageNet1K",
help="dataset name. options are ImageNet1K, CUB200_2011, CIFAR10, CIFAR100, SVHN, VOC2012, ADE20K, Cityscapes, "
"COCO, LibriSpeech, MCV")
parser.add_argument(
"--work-dir",
type=str,
default=os.path.join("..", "imgclsmob_data"),
help="path to working directory only for dataset root path preset")
args, _ = parser.parse_known_args()
dataset_metainfo = get_dataset_metainfo(dataset_name=args.dataset)
dataset_metainfo.add_dataset_parser_arguments(
parser=parser,
work_dir_path=args.work_dir)
add_eval_cls_parser_arguments(parser)
args = parser.parse_args()
return args
def prepare_dataset_metainfo(args):
"""
Get dataset metainfo by name of dataset.
Parameters
----------
args : ArgumentParser
Main script arguments.
Returns
-------
DatasetMetaInfo
Dataset metainfo.
"""
ds_metainfo = get_dataset_metainfo(dataset_name=args.dataset)
ds_metainfo.update(args=args)
assert (ds_metainfo.ml_type != "imgseg") or (args.batch_size == 1)
assert (ds_metainfo.ml_type != "imgseg") or args.disable_cudnn_autotune
return ds_metainfo
def prepare_data_source(ds_metainfo,
data_subset,
batch_size,
num_workers):
"""
Prepare data loader.
Parameters
----------
ds_metainfo : DatasetMetaInfo
Dataset metainfo.
data_subset : str
Data subset.
batch_size : int
Batch size.
num_workers : int
Number of background workers.
Returns
-------
DataLoader
Data source.
"""
assert (data_subset in ("val", "test"))
if data_subset == "val":
get_data_source_class = get_val_data_source
else:
get_data_source_class = get_test_data_source
data_source = get_data_source_class(
ds_metainfo=ds_metainfo,
batch_size=batch_size,
num_workers=num_workers)
return data_source
def prepare_metric(ds_metainfo,
data_subset):
"""
Prepare metric.
Parameters
----------
ds_metainfo : DatasetMetaInfo
Dataset metainfo.
data_subset : str
Data subset.
Returns
-------
CompositeEvalMetric
Metric object instance.
"""
assert (data_subset in ("val", "test"))
if data_subset == "val":
metric_names = ds_metainfo.val_metric_names
metric_extra_kwargs = ds_metainfo.val_metric_extra_kwargs
else:
metric_names = ds_metainfo.test_metric_names
metric_extra_kwargs = ds_metainfo.test_metric_extra_kwargs
metric = get_composite_metric(
metric_names=metric_names,
metric_extra_kwargs=metric_extra_kwargs)
return metric
def update_input_image_size(net,
input_size):
"""
Update input image size for model.
Parameters
----------
net : Module
Model.
input_size : int
Preliminary value for input image size.
Returns
-------
tuple(int, int)
Spatial size of the expected input image.
"""
real_net = net.module if hasattr(net, "module") else net
input_image_size = real_net.in_size if hasattr(real_net, "in_size") else\
((input_size, input_size) if isinstance(input_size, int) else input_size)
return input_image_size
def calc_model_accuracy(net,
test_data,
metric,
use_cuda,
input_image_size,
in_channels,
calc_weight_count=False,
calc_flops=False,
calc_flops_only=True,
extended_log=False,
ml_type="cls"):
"""
Estimating particular model accuracy.
Parameters
----------
net : Module
Model.
test_data : DataLoader
Data loader.
metric : EvalMetric
Metric object instance.
use_cuda : bool
Whether to use CUDA.
input_image_size : tuple(int, int)
Spatial size of the expected input image.
in_channels : int
Number of input channels.
calc_weight_count : bool, default False
Whether to calculate count of weights.
calc_flops : bool, default False
Whether to calculate FLOPs.
calc_flops_only : bool, default True
Whether to only calculate FLOPs without testing.
extended_log : bool, default False
Whether to log more precise accuracy values.
ml_type : str, default 'cls'
Machine learning type.
Returns
-------
list of floats
Accuracy values.
"""
if not calc_flops_only:
tic = time.time()
validate(
metric=metric,
net=net,
val_data=test_data,
use_cuda=use_cuda)
accuracy_msg = report_accuracy(
metric=metric,
extended_log=extended_log)
logging.info("Test: {}".format(accuracy_msg))
logging.info("Time cost: {:.4f} sec".format(
time.time() - tic))
acc_values = metric.get()[1]
acc_values = acc_values if isinstance(acc_values, list) else [acc_values]
else:
acc_values = []
if calc_weight_count:
weight_count = calc_net_weight_count(net)
if not calc_flops:
logging.info("Model: {} trainable parameters".format(weight_count))
if calc_flops:
in_shapes = [(1, 640 * 25 * 5), (1,)] if ml_type == "asr" else\
[(1, in_channels, input_image_size[0], input_image_size[1])]
num_flops, num_macs, num_params = measure_model(
model=net,
in_shapes=in_shapes)
assert (not calc_weight_count) or (weight_count == num_params)
stat_msg = "Params: {params} ({params_m:.2f}M), FLOPs: {flops} ({flops_m:.2f}M)," \
" FLOPs/2: {flops2} ({flops2_m:.2f}M), MACs: {macs} ({macs_m:.2f}M)"
logging.info(stat_msg.format(
params=num_params, params_m=num_params / 1e6,
flops=num_flops, flops_m=num_flops / 1e6,
flops2=num_flops / 2, flops2_m=num_flops / 2 / 1e6,
macs=num_macs, macs_m=num_macs / 1e6))
return acc_values
def test_model(args):
"""
Main test routine.
Parameters
----------
args : ArgumentParser
Main script arguments.
Returns
-------
float
Main accuracy value.
"""
ds_metainfo = prepare_dataset_metainfo(args=args)
use_cuda, batch_size = prepare_pt_context(
num_gpus=args.num_gpus,
batch_size=args.batch_size)
data_source = prepare_data_source(
ds_metainfo=ds_metainfo,
data_subset=args.data_subset,
batch_size=batch_size,
num_workers=args.num_workers)
metric = prepare_metric(
ds_metainfo=ds_metainfo,
data_subset=args.data_subset)
net = prepare_model(
model_name=args.model,
use_pretrained=args.use_pretrained,
pretrained_model_file_path=args.resume.strip(),
use_cuda=use_cuda,
num_classes=(args.num_classes if ds_metainfo.ml_type != "hpe" else None),
in_channels=args.in_channels,
net_extra_kwargs=ds_metainfo.test_net_extra_kwargs,
load_ignore_extra=ds_metainfo.load_ignore_extra,
remove_module=args.remove_module)
input_image_size = update_input_image_size(
net=net,
input_size=(args.input_size if hasattr(args, "input_size") else None))
if args.show_progress:
from tqdm import tqdm
data_source = tqdm(data_source)
assert (args.use_pretrained or args.resume.strip() or args.calc_flops_only)
acc_values = calc_model_accuracy(
net=net,
test_data=data_source,
metric=metric,
use_cuda=use_cuda,
input_image_size=input_image_size,
in_channels=args.in_channels,
calc_weight_count=True,
calc_flops=args.calc_flops,
calc_flops_only=args.calc_flops_only,
extended_log=True,
ml_type=ds_metainfo.ml_type)
return acc_values[ds_metainfo.saver_acc_ind] if len(acc_values) > 0 else None
def main():
"""
Main body of script.
"""
args = parse_args()
if args.disable_cudnn_autotune:
os.environ["MXNET_CUDNN_AUTOTUNE_DEFAULT"] = "0"
_, _ = initialize_logging(
logging_dir_path=args.save_dir,
logging_file_name=args.logging_file_name,
main_script_path=__file__,
script_args=args)
if args.all:
args.use_pretrained = True
dataset_name_map = {
"in1k": "ImageNet1K",
"cub": "CUB200_2011",
"cf10": "CIFAR10",
"cf100": "CIFAR100",
"svhn": "SVHN",
"voc": "VOC",
"ade20k": "ADE20K",
"cs": "Cityscapes",
"cocoseg": "CocoSeg",
"cocohpe": "CocoHpe",
"hp": "HPatches",
"ls": "LibriSpeech",
"mcv": "MCV",
}
model_metainfo_dict = get_model_metainfo_dict()
for model_name, model_metainfo in (model_metainfo_dict.items() if version_info[0] >= 3 else model_metainfo_dict.iteritems()): # noqa
error, checksum, repo_release_tag, caption, paper, ds, img_size, scale, batch, rem = model_metainfo[1:]
if (ds != "in1k") or (img_size == 0) or ((len(rem) > 0) and (rem[-1] == "*")):
continue
args.dataset = dataset_name_map[ds]
args.model = model_name
args.input_size = img_size
args.resize_inv_factor = scale
args.batch_size = batch
logging.info("==============")
logging.info("Checking model: {}".format(model_name))
acc_value = test_model(args=args)
if acc_value is not None:
exp_value = int(error) * 1e-4
if abs(acc_value - exp_value) > 2e-4:
logging.info("----> Wrong value detected (expected value: {})!".format(exp_value))
else:
test_model(args=args)
if __name__ == "__main__":
main()