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uploading a fresh copy of the detection models
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import glob
import json
import logging
import os
import sys
from pathlib import Path
logger = logging.getLogger(__name__)
FILE = Path(__file__).resolve()
ROOT = FILE.parents[3] # YOLOv5 root directory
if str(ROOT) not in sys.path:
sys.path.append(str(ROOT)) # add ROOT to PATH
try:
import comet_ml
# Project Configuration
config = comet_ml.config.get_config()
COMET_PROJECT_NAME = config.get_string(os.getenv("COMET_PROJECT_NAME"), "comet.project_name", default="yolov5")
except ImportError:
comet_ml = None
COMET_PROJECT_NAME = None
import PIL
import torch
import torchvision.transforms as T
import yaml
from utils.dataloaders import img2label_paths
from utils.general import check_dataset, scale_boxes, xywh2xyxy
from utils.metrics import box_iou
COMET_PREFIX = "comet://"
COMET_MODE = os.getenv("COMET_MODE", "online")
# Model Saving Settings
COMET_MODEL_NAME = os.getenv("COMET_MODEL_NAME", "yolov5")
# Dataset Artifact Settings
COMET_UPLOAD_DATASET = os.getenv("COMET_UPLOAD_DATASET", "false").lower() == "true"
# Evaluation Settings
COMET_LOG_CONFUSION_MATRIX = os.getenv("COMET_LOG_CONFUSION_MATRIX", "true").lower() == "true"
COMET_LOG_PREDICTIONS = os.getenv("COMET_LOG_PREDICTIONS", "true").lower() == "true"
COMET_MAX_IMAGE_UPLOADS = int(os.getenv("COMET_MAX_IMAGE_UPLOADS", 100))
# Confusion Matrix Settings
CONF_THRES = float(os.getenv("CONF_THRES", 0.001))
IOU_THRES = float(os.getenv("IOU_THRES", 0.6))
# Batch Logging Settings
COMET_LOG_BATCH_METRICS = os.getenv("COMET_LOG_BATCH_METRICS", "false").lower() == "true"
COMET_BATCH_LOGGING_INTERVAL = os.getenv("COMET_BATCH_LOGGING_INTERVAL", 1)
COMET_PREDICTION_LOGGING_INTERVAL = os.getenv("COMET_PREDICTION_LOGGING_INTERVAL", 1)
COMET_LOG_PER_CLASS_METRICS = os.getenv("COMET_LOG_PER_CLASS_METRICS", "false").lower() == "true"
RANK = int(os.getenv("RANK", -1))
to_pil = T.ToPILImage()
class CometLogger:
"""Log metrics, parameters, source code, models and much more with Comet."""
def __init__(self, opt, hyp, run_id=None, job_type="Training", **experiment_kwargs) -> None:
self.job_type = job_type
self.opt = opt
self.hyp = hyp
# Comet Flags
self.comet_mode = COMET_MODE
self.save_model = opt.save_period > -1
self.model_name = COMET_MODEL_NAME
# Batch Logging Settings
self.log_batch_metrics = COMET_LOG_BATCH_METRICS
self.comet_log_batch_interval = COMET_BATCH_LOGGING_INTERVAL
# Dataset Artifact Settings
self.upload_dataset = self.opt.upload_dataset or COMET_UPLOAD_DATASET
self.resume = self.opt.resume
# Default parameters to pass to Experiment objects
self.default_experiment_kwargs = {
"log_code": False,
"log_env_gpu": True,
"log_env_cpu": True,
"project_name": COMET_PROJECT_NAME,
}
self.default_experiment_kwargs.update(experiment_kwargs)
self.experiment = self._get_experiment(self.comet_mode, run_id)
self.experiment.set_name(self.opt.name)
self.data_dict = self.check_dataset(self.opt.data)
self.class_names = self.data_dict["names"]
self.num_classes = self.data_dict["nc"]
self.logged_images_count = 0
self.max_images = COMET_MAX_IMAGE_UPLOADS
if run_id is None:
self.experiment.log_other("Created from", "YOLOv5")
if not isinstance(self.experiment, comet_ml.OfflineExperiment):
workspace, project_name, experiment_id = self.experiment.url.split("/")[-3:]
self.experiment.log_other(
"Run Path",
f"{workspace}/{project_name}/{experiment_id}",
)
self.log_parameters(vars(opt))
self.log_parameters(self.opt.hyp)
self.log_asset_data(
self.opt.hyp,
name="hyperparameters.json",
metadata={"type": "hyp-config-file"},
)
self.log_asset(
f"{self.opt.save_dir}/opt.yaml",
metadata={"type": "opt-config-file"},
)
self.comet_log_confusion_matrix = COMET_LOG_CONFUSION_MATRIX
if hasattr(self.opt, "conf_thres"):
self.conf_thres = self.opt.conf_thres
else:
self.conf_thres = CONF_THRES
if hasattr(self.opt, "iou_thres"):
self.iou_thres = self.opt.iou_thres
else:
self.iou_thres = IOU_THRES
self.log_parameters({"val_iou_threshold": self.iou_thres, "val_conf_threshold": self.conf_thres})
self.comet_log_predictions = COMET_LOG_PREDICTIONS
if self.opt.bbox_interval == -1:
self.comet_log_prediction_interval = 1 if self.opt.epochs < 10 else self.opt.epochs // 10
else:
self.comet_log_prediction_interval = self.opt.bbox_interval
if self.comet_log_predictions:
self.metadata_dict = {}
self.logged_image_names = []
self.comet_log_per_class_metrics = COMET_LOG_PER_CLASS_METRICS
self.experiment.log_others(
{
"comet_mode": COMET_MODE,
"comet_max_image_uploads": COMET_MAX_IMAGE_UPLOADS,
"comet_log_per_class_metrics": COMET_LOG_PER_CLASS_METRICS,
"comet_log_batch_metrics": COMET_LOG_BATCH_METRICS,
"comet_log_confusion_matrix": COMET_LOG_CONFUSION_MATRIX,
"comet_model_name": COMET_MODEL_NAME,
}
)
# Check if running the Experiment with the Comet Optimizer
if hasattr(self.opt, "comet_optimizer_id"):
self.experiment.log_other("optimizer_id", self.opt.comet_optimizer_id)
self.experiment.log_other("optimizer_objective", self.opt.comet_optimizer_objective)
self.experiment.log_other("optimizer_metric", self.opt.comet_optimizer_metric)
self.experiment.log_other("optimizer_parameters", json.dumps(self.hyp))
def _get_experiment(self, mode, experiment_id=None):
if mode == "offline":
return (
comet_ml.ExistingOfflineExperiment(
previous_experiment=experiment_id,
**self.default_experiment_kwargs,
)
if experiment_id is not None
else comet_ml.OfflineExperiment(
**self.default_experiment_kwargs,
)
)
try:
if experiment_id is not None:
return comet_ml.ExistingExperiment(
previous_experiment=experiment_id,
**self.default_experiment_kwargs,
)
return comet_ml.Experiment(**self.default_experiment_kwargs)
except ValueError:
logger.warning(
"COMET WARNING: "
"Comet credentials have not been set. "
"Comet will default to offline logging. "
"Please set your credentials to enable online logging."
)
return self._get_experiment("offline", experiment_id)
return
def log_metrics(self, log_dict, **kwargs):
self.experiment.log_metrics(log_dict, **kwargs)
def log_parameters(self, log_dict, **kwargs):
self.experiment.log_parameters(log_dict, **kwargs)
def log_asset(self, asset_path, **kwargs):
self.experiment.log_asset(asset_path, **kwargs)
def log_asset_data(self, asset, **kwargs):
self.experiment.log_asset_data(asset, **kwargs)
def log_image(self, img, **kwargs):
self.experiment.log_image(img, **kwargs)
def log_model(self, path, opt, epoch, fitness_score, best_model=False):
if not self.save_model:
return
model_metadata = {
"fitness_score": fitness_score[-1],
"epochs_trained": epoch + 1,
"save_period": opt.save_period,
"total_epochs": opt.epochs,
}
model_files = glob.glob(f"{path}/*.pt")
for model_path in model_files:
name = Path(model_path).name
self.experiment.log_model(
self.model_name,
file_or_folder=model_path,
file_name=name,
metadata=model_metadata,
overwrite=True,
)
def check_dataset(self, data_file):
with open(data_file) as f:
data_config = yaml.safe_load(f)
path = data_config.get("path")
if path and path.startswith(COMET_PREFIX):
path = data_config["path"].replace(COMET_PREFIX, "")
return self.download_dataset_artifact(path)
self.log_asset(self.opt.data, metadata={"type": "data-config-file"})
return check_dataset(data_file)
def log_predictions(self, image, labelsn, path, shape, predn):
if self.logged_images_count >= self.max_images:
return
detections = predn[predn[:, 4] > self.conf_thres]
iou = box_iou(labelsn[:, 1:], detections[:, :4])
mask, _ = torch.where(iou > self.iou_thres)
if len(mask) == 0:
return
filtered_detections = detections[mask]
filtered_labels = labelsn[mask]
image_id = path.split("/")[-1].split(".")[0]
image_name = f"{image_id}_curr_epoch_{self.experiment.curr_epoch}"
if image_name not in self.logged_image_names:
native_scale_image = PIL.Image.open(path)
self.log_image(native_scale_image, name=image_name)
self.logged_image_names.append(image_name)
metadata = [
{
"label": f"{self.class_names[int(cls)]}-gt",
"score": 100,
"box": {"x": xyxy[0], "y": xyxy[1], "x2": xyxy[2], "y2": xyxy[3]},
}
for cls, *xyxy in filtered_labels.tolist()
]
metadata.extend(
{
"label": f"{self.class_names[int(cls)]}",
"score": conf * 100,
"box": {"x": xyxy[0], "y": xyxy[1], "x2": xyxy[2], "y2": xyxy[3]},
}
for *xyxy, conf, cls in filtered_detections.tolist()
)
self.metadata_dict[image_name] = metadata
self.logged_images_count += 1
return
def preprocess_prediction(self, image, labels, shape, pred):
nl, _ = labels.shape[0], pred.shape[0]
# Predictions
if self.opt.single_cls:
pred[:, 5] = 0
predn = pred.clone()
scale_boxes(image.shape[1:], predn[:, :4], shape[0], shape[1])
labelsn = None
if nl:
tbox = xywh2xyxy(labels[:, 1:5]) # target boxes
scale_boxes(image.shape[1:], tbox, shape[0], shape[1]) # native-space labels
labelsn = torch.cat((labels[:, 0:1], tbox), 1) # native-space labels
scale_boxes(image.shape[1:], predn[:, :4], shape[0], shape[1]) # native-space pred
return predn, labelsn
def add_assets_to_artifact(self, artifact, path, asset_path, split):
img_paths = sorted(glob.glob(f"{asset_path}/*"))
label_paths = img2label_paths(img_paths)
for image_file, label_file in zip(img_paths, label_paths):
image_logical_path, label_logical_path = map(lambda x: os.path.relpath(x, path), [image_file, label_file])
try:
artifact.add(
image_file,
logical_path=image_logical_path,
metadata={"split": split},
)
artifact.add(
label_file,
logical_path=label_logical_path,
metadata={"split": split},
)
except ValueError as e:
logger.error("COMET ERROR: Error adding file to Artifact. Skipping file.")
logger.error(f"COMET ERROR: {e}")
continue
return artifact
def upload_dataset_artifact(self):
dataset_name = self.data_dict.get("dataset_name", "yolov5-dataset")
path = str((ROOT / Path(self.data_dict["path"])).resolve())
metadata = self.data_dict.copy()
for key in ["train", "val", "test"]:
split_path = metadata.get(key)
if split_path is not None:
metadata[key] = split_path.replace(path, "")
artifact = comet_ml.Artifact(name=dataset_name, artifact_type="dataset", metadata=metadata)
for key in metadata.keys():
if key in ["train", "val", "test"]:
if isinstance(self.upload_dataset, str) and (key != self.upload_dataset):
continue
asset_path = self.data_dict.get(key)
if asset_path is not None:
artifact = self.add_assets_to_artifact(artifact, path, asset_path, key)
self.experiment.log_artifact(artifact)
return
def download_dataset_artifact(self, artifact_path):
logged_artifact = self.experiment.get_artifact(artifact_path)
artifact_save_dir = str(Path(self.opt.save_dir) / logged_artifact.name)
logged_artifact.download(artifact_save_dir)
metadata = logged_artifact.metadata
data_dict = metadata.copy()
data_dict["path"] = artifact_save_dir
metadata_names = metadata.get("names")
if isinstance(metadata_names, dict):
data_dict["names"] = {int(k): v for k, v in metadata.get("names").items()}
elif isinstance(metadata_names, list):
data_dict["names"] = {int(k): v for k, v in zip(range(len(metadata_names)), metadata_names)}
else:
raise "Invalid 'names' field in dataset yaml file. Please use a list or dictionary"
return self.update_data_paths(data_dict)
def update_data_paths(self, data_dict):
path = data_dict.get("path", "")
for split in ["train", "val", "test"]:
if data_dict.get(split):
split_path = data_dict.get(split)
data_dict[split] = (
f"{path}/{split_path}" if isinstance(split, str) else [f"{path}/{x}" for x in split_path]
)
return data_dict
def on_pretrain_routine_end(self, paths):
if self.opt.resume:
return
for path in paths:
self.log_asset(str(path))
if self.upload_dataset and not self.resume:
self.upload_dataset_artifact()
return
def on_train_start(self):
self.log_parameters(self.hyp)
def on_train_epoch_start(self):
return
def on_train_epoch_end(self, epoch):
self.experiment.curr_epoch = epoch
return
def on_train_batch_start(self):
return
def on_train_batch_end(self, log_dict, step):
self.experiment.curr_step = step
if self.log_batch_metrics and (step % self.comet_log_batch_interval == 0):
self.log_metrics(log_dict, step=step)
return
def on_train_end(self, files, save_dir, last, best, epoch, results):
if self.comet_log_predictions:
curr_epoch = self.experiment.curr_epoch
self.experiment.log_asset_data(self.metadata_dict, "image-metadata.json", epoch=curr_epoch)
for f in files:
self.log_asset(f, metadata={"epoch": epoch})
self.log_asset(f"{save_dir}/results.csv", metadata={"epoch": epoch})
if not self.opt.evolve:
model_path = str(best if best.exists() else last)
name = Path(model_path).name
if self.save_model:
self.experiment.log_model(
self.model_name,
file_or_folder=model_path,
file_name=name,
overwrite=True,
)
# Check if running Experiment with Comet Optimizer
if hasattr(self.opt, "comet_optimizer_id"):
metric = results.get(self.opt.comet_optimizer_metric)
self.experiment.log_other("optimizer_metric_value", metric)
self.finish_run()
def on_val_start(self):
return
def on_val_batch_start(self):
return
def on_val_batch_end(self, batch_i, images, targets, paths, shapes, outputs):
if not (self.comet_log_predictions and ((batch_i + 1) % self.comet_log_prediction_interval == 0)):
return
for si, pred in enumerate(outputs):
if len(pred) == 0:
continue
image = images[si]
labels = targets[targets[:, 0] == si, 1:]
shape = shapes[si]
path = paths[si]
predn, labelsn = self.preprocess_prediction(image, labels, shape, pred)
if labelsn is not None:
self.log_predictions(image, labelsn, path, shape, predn)
return
def on_val_end(self, nt, tp, fp, p, r, f1, ap, ap50, ap_class, confusion_matrix):
if self.comet_log_per_class_metrics and self.num_classes > 1:
for i, c in enumerate(ap_class):
class_name = self.class_names[c]
self.experiment.log_metrics(
{
"[email protected]": ap50[i],
"[email protected]:.95": ap[i],
"precision": p[i],
"recall": r[i],
"f1": f1[i],
"true_positives": tp[i],
"false_positives": fp[i],
"support": nt[c],
},
prefix=class_name,
)
if self.comet_log_confusion_matrix:
epoch = self.experiment.curr_epoch
class_names = list(self.class_names.values())
class_names.append("background")
num_classes = len(class_names)
self.experiment.log_confusion_matrix(
matrix=confusion_matrix.matrix,
max_categories=num_classes,
labels=class_names,
epoch=epoch,
column_label="Actual Category",
row_label="Predicted Category",
file_name=f"confusion-matrix-epoch-{epoch}.json",
)
def on_fit_epoch_end(self, result, epoch):
self.log_metrics(result, epoch=epoch)
def on_model_save(self, last, epoch, final_epoch, best_fitness, fi):
if ((epoch + 1) % self.opt.save_period == 0 and not final_epoch) and self.opt.save_period != -1:
self.log_model(last.parent, self.opt, epoch, fi, best_model=best_fitness == fi)
def on_params_update(self, params):
self.log_parameters(params)
def finish_run(self):
self.experiment.end()