Benchmark: Remove unused save_chart; load multiple results

5 years ago · d7aac56bd9
parent f05db85df8
commit d7aac56bd9
1 changed files with 1 additions and 86 deletions
--- a/miplearn/benchmark.py
+++ b/miplearn/benchmark.py
@ -66,7 +66,7 @@ class BenchmarkRunner:
        self.results.to_csv(filename)
    def load_results(self, filename):
-        self.results = pd.read_csv(filename, index_col=0)
+        self.results = pd.concat([self.results, pd.read_csv(filename, index_col=0)])
    def load_state(self, filename):
        for (solver_name, solver) in self.solvers.items():
@ -113,91 +113,6 @@ class BenchmarkRunner:
        self.results["Relative Gap"] = self.results["Gap"] / best_gap
        self.results["Relative Nodes"] = self.results["Nodes"] / best_nodes
    def save_chart(self, filename):
        import matplotlib.pyplot as plt
        import seaborn as sns
        from numpy import median
        sns.set_style("whitegrid")
        sns.set_palette("Blues_r")
        results = self.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"
        fig, (ax1, ax2, ax3, ax4) = plt.subplots(
            nrows=1,
            ncols=4,
            figsize=(12, 4),
            gridspec_kw={"width_ratios": [2, 1, 1, 2]},
        )
        # Figure 1: Solver x Wallclock time
        sns.stripplot(
            x="Solver",
            y="Wallclock time",
            data=results,
            ax=ax1,
            jitter=0.25,
            size=4.0,
        )
        sns.barplot(
            x="Solver",
            y="Wallclock time",
            data=results,
            ax=ax1,
            errwidth=0.0,
            alpha=0.4,
            estimator=median,
        )
        ax1.set(ylabel="Wallclock time (s)")
        # Figure 2: Solver x Gap (%)
        ax2.set_ylim(-0.5, 5.5)
        sns.stripplot(
            x="Solver",
            y="Gap (%)",
            jitter=0.25,
            data=results[results["Mode"] != "heuristic"],
            ax=ax2,
            size=4.0,
        )
        # Figure 3: Solver x Primal Value
        ax3.set_ylim(0.95, 1.05)
        sns.stripplot(
            x="Solver",
            y=primal_column,
            jitter=0.25,
            data=results[results["Mode"] == "heuristic"],
            ax=ax3,
        )
        # Figure 4: Predicted vs Actual Objective Value
        sns.scatterplot(
            x=obj_column,
            y=predicted_obj_column,
            hue="Solver",
            data=results[results["Mode"] != "heuristic"],
            ax=ax4,
        )
        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(filename, bbox_inches="tight", dpi=150)
    def _silence_miplearn_logger(self):
        miplearn_logger = logging.getLogger("miplearn")
        self.prev_log_level = miplearn_logger.getEffectiveLevel()