mirror of https://github.com/python/cpython.git
198 lines
5.7 KiB
Python
198 lines
5.7 KiB
Python
"""
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List sort performance test.
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To install `pyperf` you would need to:
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python3 -m pip install pyperf
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To run:
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python3 Tools/scripts/sortperf
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Options:
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* `benchmark` name to run
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* `--rnd-seed` to set random seed
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* `--size` to set the sorted list size
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Based on https://github.com/python/cpython/blob/963904335e579bfe39101adf3fd6a0cf705975ff/Lib/test/sortperf.py
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"""
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from __future__ import annotations
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import argparse
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import time
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import random
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# ===============
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# Data generation
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# ===============
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def _random_data(size: int, rand: random.Random) -> list[float]:
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result = [rand.random() for _ in range(size)]
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# Shuffle it a bit...
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for i in range(10):
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i = rand.randrange(size)
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temp = result[:i]
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del result[:i]
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temp.reverse()
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result.extend(temp)
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del temp
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assert len(result) == size
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return result
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def list_sort(size: int, rand: random.Random) -> list[float]:
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return _random_data(size, rand)
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def list_sort_descending(size: int, rand: random.Random) -> list[float]:
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return list(reversed(list_sort_ascending(size, rand)))
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def list_sort_ascending(size: int, rand: random.Random) -> list[float]:
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return sorted(_random_data(size, rand))
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def list_sort_ascending_exchanged(size: int, rand: random.Random) -> list[float]:
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result = list_sort_ascending(size, rand)
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# Do 3 random exchanges.
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for _ in range(3):
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i1 = rand.randrange(size)
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i2 = rand.randrange(size)
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result[i1], result[i2] = result[i2], result[i1]
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return result
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def list_sort_ascending_random(size: int, rand: random.Random) -> list[float]:
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assert size >= 10, "This benchmark requires size to be >= 10"
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result = list_sort_ascending(size, rand)
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# Replace the last 10 with random floats.
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result[-10:] = [rand.random() for _ in range(10)]
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return result
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def list_sort_ascending_one_percent(size: int, rand: random.Random) -> list[float]:
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result = list_sort_ascending(size, rand)
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# Replace 1% of the elements at random.
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for _ in range(size // 100):
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result[rand.randrange(size)] = rand.random()
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return result
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def list_sort_duplicates(size: int, rand: random.Random) -> list[float]:
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assert size >= 4
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result = list_sort_ascending(4, rand)
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# Arrange for lots of duplicates.
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result = result * (size // 4)
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# Force the elements to be distinct objects, else timings can be
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# artificially low.
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return list(map(abs, result))
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def list_sort_equal(size: int, rand: random.Random) -> list[float]:
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# All equal. Again, force the elements to be distinct objects.
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return list(map(abs, [-0.519012] * size))
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def list_sort_worst_case(size: int, rand: random.Random) -> list[float]:
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# This one looks like [3, 2, 1, 0, 0, 1, 2, 3]. It was a bad case
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# for an older implementation of quicksort, which used the median
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# of the first, last and middle elements as the pivot.
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half = size // 2
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result = list(range(half - 1, -1, -1))
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result.extend(range(half))
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# Force to float, so that the timings are comparable. This is
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# significantly faster if we leave them as ints.
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return list(map(float, result))
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# =========
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# Benchmark
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# =========
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class Benchmark:
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def __init__(self, name: str, size: int, seed: int) -> None:
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self._name = name
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self._size = size
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self._seed = seed
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self._random = random.Random(self._seed)
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def run(self, loops: int) -> float:
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all_data = self._prepare_data(loops)
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start = time.perf_counter()
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for data in all_data:
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data.sort() # Benching this method!
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return time.perf_counter() - start
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def _prepare_data(self, loops: int) -> list[float]:
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bench = BENCHMARKS[self._name]
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data = bench(self._size, self._random)
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return [data.copy() for _ in range(loops)]
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def add_cmdline_args(cmd: list[str], args) -> None:
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if args.benchmark:
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cmd.append(args.benchmark)
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cmd.append(f"--size={args.size}")
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cmd.append(f"--rng-seed={args.rng_seed}")
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def add_parser_args(parser: argparse.ArgumentParser) -> None:
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parser.add_argument(
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"benchmark",
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choices=BENCHMARKS,
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nargs="?",
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help="Can be any of: {0}".format(", ".join(BENCHMARKS)),
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)
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parser.add_argument(
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"--size",
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type=int,
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default=DEFAULT_SIZE,
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help=f"Size of the lists to sort (default: {DEFAULT_SIZE})",
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)
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parser.add_argument(
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"--rng-seed",
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type=int,
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default=DEFAULT_RANDOM_SEED,
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help=f"Random number generator seed (default: {DEFAULT_RANDOM_SEED})",
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)
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DEFAULT_SIZE = 1 << 14
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DEFAULT_RANDOM_SEED = 0
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BENCHMARKS = {
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"list_sort": list_sort,
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"list_sort_descending": list_sort_descending,
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"list_sort_ascending": list_sort_ascending,
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"list_sort_ascending_exchanged": list_sort_ascending_exchanged,
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"list_sort_ascending_random": list_sort_ascending_random,
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"list_sort_ascending_one_percent": list_sort_ascending_one_percent,
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"list_sort_duplicates": list_sort_duplicates,
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"list_sort_equal": list_sort_equal,
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"list_sort_worst_case": list_sort_worst_case,
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}
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if __name__ == "__main__":
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# This needs `pyperf` 3rd party library:
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import pyperf
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runner = pyperf.Runner(add_cmdline_args=add_cmdline_args)
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add_parser_args(runner.argparser)
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args = runner.parse_args()
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runner.metadata["description"] = "Test `list.sort()` with different data"
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runner.metadata["list_sort_size"] = args.size
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runner.metadata["list_sort_random_seed"] = args.rng_seed
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if args.benchmark:
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benchmarks = (args.benchmark,)
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else:
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benchmarks = sorted(BENCHMARKS)
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for bench in benchmarks:
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benchmark = Benchmark(bench, args.size, args.rng_seed)
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runner.bench_time_func(bench, benchmark.run)
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