"""Auto-generated example: 2 Float, 0 Categorical (no repeats)."""
import math
import bencher as bn
class CompressionBench(bn.ParametrizedSweep):
"""Measures compression ratio across block size and input entropy."""
block_size = bn.FloatSweep(default=4096, bounds=[512, 65536], doc="Block size in bytes")
entropy = bn.FloatSweep(default=0.5, bounds=[0.0, 1.0], doc="Input data entropy")
ratio = bn.ResultFloat(units="x", doc="Compression ratio")
def benchmark(self):
self.ratio = (1.0 - 0.7 * self.entropy) * (1.0 + 0.3 * math.log2(self.block_size / 512))
def example_sweep_2_float_0_cat_no_repeats(run_cfg: bn.BenchRunCfg | None = None) -> bn.Bench:
"""2 Float, 0 Categorical (no repeats)."""
bench = CompressionBench().to_bench(run_cfg)
bench.plot_sweep(input_vars=['block_size', 'entropy'], result_vars=['ratio'], description='A 2 float + 0 categorical parameter sweep with a single sample per combination. Bencher calculates the Cartesian product of all input variables and evaluates the benchmark function at each point. With no repeats, each combination appears exactly once -- useful for deterministic functions or quick exploration before committing to longer runs. A 2D float sweep produces a heatmap. Additional categorical variables create faceted heatmaps, one per category combination.', post_description='Each tab shows a different view of the same data: interactive plots, tabular summaries, and raw data. Use the tabs to explore the sweep results from different angles.')
return bench
if __name__ == "__main__":
bn.run(example_sweep_2_float_0_cat_no_repeats, subsampling_divisions=4)