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2026-07-13 12:40:42 +08:00

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Python

# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import unittest
import numpy as np
from paddle.distributed.auto_parallel.static.tuner import recorder as rd
class TestRecorder(unittest.TestCase):
def test_register(self):
recorder = rd.MetricsRecorder()
recorder.register("metric")
self.assertEqual(set(recorder.records.keys()), {"metric"})
self.assertEqual(recorder.records["metric"].direction, "min")
def test_exists(self):
recorder = rd.MetricsRecorder()
recorder.register("metric", direction="max")
self.assertTrue(recorder.exists("metric"))
def test_update(self):
recorder = rd.MetricsRecorder()
recorder.update("metric", 4, 1000)
self.assertEqual(recorder.records["metric"].direction, "min")
self.assertEqual(
recorder.get_records("metric"), [rd.MetricRecord(4, 1000)]
)
def test_get_records(self):
recorder = rd.MetricsRecorder()
recorder.update("metric", 1, step=0)
recorder.update("metric", 2, step=1)
recorder.update("metric", 3, step=2)
recorder.update("metric", 4, step=3)
self.assertEqual(
recorder.get_records("metric"),
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
def test_set_records(self):
recorder = rd.MetricsRecorder()
recorder.set_records(
"metric",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
self.assertEqual(
recorder.get_records("metric"),
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
def test_get_best_value(self):
recorder = rd.MetricsRecorder()
recorder.register("metric_min", "min")
recorder.register("metric_max", "max")
recorder.set_records(
"metric_min",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
self.assertEqual(recorder.get_best_value("metric_min"), 1)
recorder.set_records(
"metric_max",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
self.assertEqual(recorder.get_best_value("metric_max"), 4)
def test_get_best_step(self):
recorder = rd.MetricsRecorder()
recorder.register("metric_min", "min")
recorder.set_records(
"metric_min",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
self.assertEqual(recorder.get_best_step("metric_min"), 0)
recorder.register("metric_max", "max")
recorder.set_records(
"metric_max",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
self.assertEqual(recorder.get_best_step("metric_max"), 3)
def test_get_statistics(self):
recorder = rd.MetricsRecorder()
records = [rd.MetricRecord(np.random.random(), i) for i in range(14)]
recorder.set_records("metric", records)
stats = recorder.get_statistics("metric")
records = [r.value for r in records]
self.assertEqual(stats["min"], np.min(records))
self.assertEqual(stats["max"], np.max(records))
self.assertEqual(stats["mean"], np.mean(records))
self.assertEqual(stats["median"], np.median(records))
self.assertEqual(stats["var"], np.var(records))
self.assertEqual(stats["std"], np.std(records))
def test_serialization(self):
recorder = rd.MetricsRecorder()
recorder.register("metric")
recorder.set_records(
"metric",
[
rd.MetricRecord(1, 0),
rd.MetricRecord(2, 1),
rd.MetricRecord(3, 2),
rd.MetricRecord(4, 3),
],
)
print(recorder.get_state())
new_recorder = rd.MetricsRecorder.from_state(recorder.get_state())
self.assertEqual(new_recorder.records.keys(), recorder.records.keys())
if __name__ == "__main__":
unittest.main()