Ejemplo n.º 1
0
def test_ml():
    logger.info("Loading instances...")
    train_instances = load("%s/train_instances.bin" % basepath)
    test_instances = load("%s/test_instances.bin" % basepath)
    solvers = {
        "ml-exact":
        LearningSolver(
            time_limit=time_limit,
            solver=internal_solver,
        ),
        "ml-heuristic":
        LearningSolver(
            time_limit=time_limit,
            solver=internal_solver,
            mode="heuristic",
        ),
    }
    benchmark = BenchmarkRunner(solvers)
    logger.info("Loading results...")
    benchmark.load_results("%s/benchmark_baseline.csv" % basepath)
    logger.info("Fitting...")
    benchmark.fit(train_instances)
    logger.info("Solving...")
    benchmark.parallel_solve(test_instances, n_jobs=n_jobs)
    benchmark.save_results("%s/benchmark_ml.csv" % basepath)
Ejemplo n.º 2
0
def test_baseline():
    test_instances = load("%s/test_instances.bin" % basepath)
    solvers = {
        "baseline": LearningSolver(
            time_limit=test_time_limit,
            solver=internal_solver,
        ),
    }
    benchmark = BenchmarkRunner(solvers)
    benchmark.parallel_solve(test_instances, n_jobs=n_jobs)
    benchmark.save_results("%s/benchmark_baseline.csv" % basepath)
Ejemplo n.º 3
0
def test_benchmark():
    # Generate training and test instances
    train_instances = MaxWeightStableSetGenerator(
        n=randint(low=25, high=26)).generate(5)
    test_instances = MaxWeightStableSetGenerator(
        n=randint(low=25, high=26)).generate(3)

    # Training phase...
    training_solver = LearningSolver()
    training_solver.parallel_solve(train_instances, n_jobs=10)

    # Test phase...
    test_solvers = {
        "Strategy A": LearningSolver(),
        "Strategy B": LearningSolver(),
    }
    benchmark = BenchmarkRunner(test_solvers)
    benchmark.fit(train_instances)
    benchmark.parallel_solve(test_instances, n_jobs=2, n_trials=2)
    assert benchmark.raw_results().values.shape == (12, 16)

    benchmark.save_results("/tmp/benchmark.csv")
    assert os.path.isfile("/tmp/benchmark.csv")

    benchmark = BenchmarkRunner(test_solvers)
    benchmark.load_results("/tmp/benchmark.csv")
    assert benchmark.raw_results().values.shape == (12, 16)
Ejemplo n.º 4
0
def charts():
    import matplotlib.pyplot as plt
    import seaborn as sns
    sns.set_style("whitegrid")
    sns.set_palette("Blues_r")
    benchmark = BenchmarkRunner({})
    benchmark.load_results("%s/benchmark_ml.csv" % basepath)
    results = benchmark.raw_results()
    results["Gap (%)"] = results["Gap"] * 100.0

    sense = results.loc[0, "Sense"]
    if sense == "min":
        primal_column = "Relative Upper Bound"
        obj_column = "Upper Bound"
        predicted_obj_column = "Predicted UB"
    else:
        primal_column = "Relative Lower Bound"
        obj_column = "Lower Bound"
        predicted_obj_column = "Predicted LB"

    palette = {
        "baseline": "#9b59b6",
        "ml-exact": "#3498db",
        "ml-heuristic": "#95a5a6"
    }
    fig, (ax1, ax2, ax3, ax4) = plt.subplots(
        nrows=1,
        ncols=4,
        figsize=(12, 4),
        gridspec_kw={'width_ratios': [2, 1, 1, 2]},
    )
    sns.stripplot(
        x="Solver",
        y="Wallclock Time",
        data=results,
        ax=ax1,
        jitter=0.25,
        palette=palette,
        size=4.0,
    )
    sns.barplot(
        x="Solver",
        y="Wallclock Time",
        data=results,
        ax=ax1,
        errwidth=0.,
        alpha=0.4,
        palette=palette,
        estimator=median,
    )
    ax1.set(ylabel='Wallclock Time (s)')
    ax2.set_ylim(-0.5, 5.5)
    sns.stripplot(
        x="Solver",
        y="Gap (%)",
        jitter=0.25,
        data=results[results["Solver"] != "ml-heuristic"],
        ax=ax2,
        palette=palette,
        size=4.0,
    )
    ax3.set_ylim(0.95, 1.05)
    sns.stripplot(
        x="Solver",
        y=primal_column,
        jitter=0.25,
        data=results[results["Solver"] == "ml-heuristic"],
        ax=ax3,
        palette=palette,
    )

    sns.scatterplot(
        x=obj_column,
        y=predicted_obj_column,
        hue="Solver",
        data=results[results["Solver"] == "ml-exact"],
        ax=ax4,
        palette=palette,
    )
    xlim, ylim = ax4.get_xlim(), ax4.get_ylim()
    ax4.plot([-1e10, 1e10], [-1e10, 1e10], ls='-', color="#cccccc")
    ax4.set_xlim(xlim)
    ax4.set_ylim(ylim)
    ax4.get_legend().remove()

    fig.tight_layout()
    plt.savefig("%s/performance.png" % basepath, bbox_inches='tight', dpi=150)