Source code for optuna.visualization.optimization_history

from optuna.logging import get_logger
from import StudyDirection
from optuna.trial import TrialState
from optuna import type_checking
from optuna.visualization.utils import _check_plotly_availability
from optuna.visualization.utils import is_available

if type_checking.TYPE_CHECKING:
    from import Study  # NOQA

if is_available():
    from optuna.visualization.plotly_imports import go

logger = get_logger(__name__)

[docs]def plot_optimization_history(study): # type: (Study) -> go.Figure """Plot optimization history of all trials in a study. Example: The following code snippet shows how to plot optimization history. .. testcode:: import optuna def objective(trial): x = trial.suggest_uniform('x', -100, 100) y = trial.suggest_categorical('y', [-1, 0, 1]) return x ** 2 + y study = optuna.create_study() study.optimize(objective, n_trials=10) optuna.visualization.plot_optimization_history(study) .. raw:: html <iframe src="../_static/plot_optimization_history.html" width="100%" height="500px" frameborder="0"> </iframe> Args: study: A :class:`` object whose trials are plotted for their objective values. Returns: A :class:`plotly.graph_objs.Figure` object. """ _check_plotly_availability() return _get_optimization_history_plot(study)
def _get_optimization_history_plot(study): # type: (Study) -> go.Figure layout = go.Layout( title="Optimization History Plot", xaxis={"title": "#Trials"}, yaxis={"title": "Objective Value"}, ) trials = [t for t in study.trials if t.state == TrialState.COMPLETE] if len(trials) == 0: logger.warning("Study instance does not contain trials.") return go.Figure(data=[], layout=layout) best_values = [float("inf")] if study.direction == StudyDirection.MINIMIZE else [-float("inf")] comp = min if study.direction == StudyDirection.MINIMIZE else max for trial in trials: trial_value = trial.value assert trial_value is not None # For mypy best_values.append(comp(best_values[-1], trial_value)) best_values.pop(0) traces = [ go.Scatter( x=[t.number for t in trials], y=[t.value for t in trials], mode="markers", name="Objective Value", ), go.Scatter(x=[t.number for t in trials], y=best_values, name="Best Value"), ] figure = go.Figure(data=traces, layout=layout) return figure