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from ultralytics.utils import SETTINGS, TESTS_RUNNING |
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from ultralytics.utils.torch_utils import model_info_for_loggers |
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try: |
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assert not TESTS_RUNNING |
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assert SETTINGS["wandb"] is True |
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import wandb as wb |
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assert hasattr(wb, "__version__") |
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import numpy as np |
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import pandas as pd |
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_processed_plots = {} |
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except (ImportError, AssertionError): |
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wb = None |
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def _custom_table(x, y, classes, title="Precision Recall Curve", x_title="Recall", y_title="Precision"): |
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""" |
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Create and log a custom metric visualization to wandb.plot.pr_curve. |
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This function crafts a custom metric visualization that mimics the behavior of wandb's default precision-recall |
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curve while allowing for enhanced customization. The visual metric is useful for monitoring model performance across |
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different classes. |
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Args: |
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x (List): Values for the x-axis; expected to have length N. |
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y (List): Corresponding values for the y-axis; also expected to have length N. |
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classes (List): Labels identifying the class of each point; length N. |
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title (str, optional): Title for the plot; defaults to 'Precision Recall Curve'. |
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x_title (str, optional): Label for the x-axis; defaults to 'Recall'. |
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y_title (str, optional): Label for the y-axis; defaults to 'Precision'. |
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Returns: |
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(wandb.Object): A wandb object suitable for logging, showcasing the crafted metric visualization. |
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""" |
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df = pd.DataFrame({"class": classes, "y": y, "x": x}).round(3) |
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fields = {"x": "x", "y": "y", "class": "class"} |
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string_fields = {"title": title, "x-axis-title": x_title, "y-axis-title": y_title} |
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return wb.plot_table( |
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"wandb/area-under-curve/v0", wb.Table(dataframe=df), fields=fields, string_fields=string_fields |
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) |
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def _plot_curve( |
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x, |
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y, |
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names=None, |
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id="precision-recall", |
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title="Precision Recall Curve", |
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x_title="Recall", |
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y_title="Precision", |
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num_x=100, |
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only_mean=False, |
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): |
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""" |
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Log a metric curve visualization. |
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This function generates a metric curve based on input data and logs the visualization to wandb. |
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The curve can represent aggregated data (mean) or individual class data, depending on the 'only_mean' flag. |
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Args: |
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x (np.ndarray): Data points for the x-axis with length N. |
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y (np.ndarray): Corresponding data points for the y-axis with shape CxN, where C is the number of classes. |
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names (list, optional): Names of the classes corresponding to the y-axis data; length C. Defaults to []. |
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id (str, optional): Unique identifier for the logged data in wandb. Defaults to 'precision-recall'. |
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title (str, optional): Title for the visualization plot. Defaults to 'Precision Recall Curve'. |
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x_title (str, optional): Label for the x-axis. Defaults to 'Recall'. |
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y_title (str, optional): Label for the y-axis. Defaults to 'Precision'. |
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num_x (int, optional): Number of interpolated data points for visualization. Defaults to 100. |
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only_mean (bool, optional): Flag to indicate if only the mean curve should be plotted. Defaults to True. |
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Note: |
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The function leverages the '_custom_table' function to generate the actual visualization. |
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""" |
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if names is None: |
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names = [] |
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x_new = np.linspace(x[0], x[-1], num_x).round(5) |
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x_log = x_new.tolist() |
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y_log = np.interp(x_new, x, np.mean(y, axis=0)).round(3).tolist() |
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if only_mean: |
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table = wb.Table(data=list(zip(x_log, y_log)), columns=[x_title, y_title]) |
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wb.run.log({title: wb.plot.line(table, x_title, y_title, title=title)}) |
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else: |
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classes = ["mean"] * len(x_log) |
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for i, yi in enumerate(y): |
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x_log.extend(x_new) |
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y_log.extend(np.interp(x_new, x, yi)) |
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classes.extend([names[i]] * len(x_new)) |
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wb.log({id: _custom_table(x_log, y_log, classes, title, x_title, y_title)}, commit=False) |
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def _log_plots(plots, step): |
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"""Logs plots from the input dictionary if they haven't been logged already at the specified step.""" |
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for name, params in plots.items(): |
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timestamp = params["timestamp"] |
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if _processed_plots.get(name) != timestamp: |
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wb.run.log({name.stem: wb.Image(str(name))}, step=step) |
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_processed_plots[name] = timestamp |
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def on_pretrain_routine_start(trainer): |
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"""Initiate and start project if module is present.""" |
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wb.run or wb.init(project=trainer.args.project or "YOLOv8", name=trainer.args.name, config=vars(trainer.args)) |
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def on_fit_epoch_end(trainer): |
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"""Logs training metrics and model information at the end of an epoch.""" |
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wb.run.log(trainer.metrics, step=trainer.epoch + 1) |
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_log_plots(trainer.plots, step=trainer.epoch + 1) |
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_log_plots(trainer.validator.plots, step=trainer.epoch + 1) |
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if trainer.epoch == 0: |
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wb.run.log(model_info_for_loggers(trainer), step=trainer.epoch + 1) |
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def on_train_epoch_end(trainer): |
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"""Log metrics and save images at the end of each training epoch.""" |
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wb.run.log(trainer.label_loss_items(trainer.tloss, prefix="train"), step=trainer.epoch + 1) |
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wb.run.log(trainer.lr, step=trainer.epoch + 1) |
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if trainer.epoch == 1: |
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_log_plots(trainer.plots, step=trainer.epoch + 1) |
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def on_train_end(trainer): |
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"""Save the best model as an artifact at end of training.""" |
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_log_plots(trainer.validator.plots, step=trainer.epoch + 1) |
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_log_plots(trainer.plots, step=trainer.epoch + 1) |
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art = wb.Artifact(type="model", name=f"run_{wb.run.id}_model") |
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if trainer.best.exists(): |
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art.add_file(trainer.best) |
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wb.run.log_artifact(art, aliases=["best"]) |
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for curve_name, curve_values in zip(trainer.validator.metrics.curves, trainer.validator.metrics.curves_results): |
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x, y, x_title, y_title = curve_values |
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_plot_curve( |
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x, |
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y, |
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names=list(trainer.validator.metrics.names.values()), |
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id=f"curves/{curve_name}", |
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title=curve_name, |
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x_title=x_title, |
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y_title=y_title, |
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) |
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wb.run.finish() |
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callbacks = ( |
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{ |
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"on_pretrain_routine_start": on_pretrain_routine_start, |
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"on_train_epoch_end": on_train_epoch_end, |
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"on_fit_epoch_end": on_fit_epoch_end, |
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"on_train_end": on_train_end, |
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} |
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if wb |
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else {} |
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) |
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