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未验证 提交 1f857cb9 编写于 作者: C chenjian 提交者: GitHub
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add profiler statistic helper (#40111) 

* add profiler helper

* fix unittest

* improve test coverage rate
上级 10325a82
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python/paddle/fluid/tests/unittests/test_newprofiler_helper.py 0 → 100755
浏览文件 @ 1f857cb9
# 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.
from __future__ import print_function
import unittest
import paddle.profiler.statistic_helper as statistic_helper
class TestStatisticHelper(unittest.TestCase):
def test_sum_ranges_case1(self):
src = [(1, 3), (4, 10), (11, 15)]
self.assertEqual(statistic_helper.sum_ranges(src), 12)
def test_sum_ranges_case2(self):
src = [(3, 3), (5, 5), (7, 7)]
self.assertEqual(statistic_helper.sum_ranges(src), 0)
def test_merge_self_ranges_case1(self):
src = [(1, 5), (2, 7), (4, 9), (14, 19)]
dst = statistic_helper.merge_self_ranges(src)
self.assertEqual(dst, [(1, 9), (14, 19)])
src = [(4, 9), (14, 19), (1, 5), (2, 7)]
dst = statistic_helper.merge_self_ranges(src)
self.assertEqual(dst, [(1, 9), (14, 19)])
def test_merge_self_ranges_case2(self):
src = [(1, 1), (2, 3), (4, 7), (5, 12)]
dst = statistic_helper.merge_self_ranges(src)
self.assertEqual(dst, [(1, 1), (2, 3), (4, 12)])
src = [(5, 12), (1, 1), (2, 3), (4, 7)]
dst = statistic_helper.merge_self_ranges(src)
self.assertEqual(dst, [(1, 1), (2, 3), (4, 12)])
def test_merge_ranges_case1(self):
src1 = [(1, 2), (5, 7), (9, 14)]
src2 = [(1, 2), (4, 9), (13, 15)]
dst = statistic_helper.merge_ranges(src1, src2)
self.assertEqual(dst, [(1, 2), (4, 15)])
dst = statistic_helper.merge_ranges(src1, src2, True)
self.assertEqual(dst, [(1, 2), (4, 15)])
src1 = []
src2 = []
dst = statistic_helper.merge_ranges(src1, src2, True)
self.assertEqual(dst, [])
src1 = [(1, 2), (3, 5)]
src2 = []
dst = statistic_helper.merge_ranges(src1, src2, True)
self.assertEqual(dst, src1)
src1 = []
src2 = [(1, 2), (3, 5)]
dst = statistic_helper.merge_ranges(src1, src2, True)
self.assertEqual(dst, src2)
src1 = [(3, 4), (1, 2), (17, 19)]
src2 = [(6, 9), (13, 15)]
dst = statistic_helper.merge_ranges(src1, src2)
self.assertEqual(dst, [(1, 2), (3, 4), (6, 9), (13, 15), (17, 19)])
dst = statistic_helper.merge_ranges(src2, src1)
self.assertEqual(dst, [(1, 2), (3, 4), (6, 9), (13, 15), (17, 19)])
src1 = [(1, 2), (5, 9), (12, 13)]
src2 = [(6, 8), (9, 15)]
dst = statistic_helper.merge_ranges(src1, src2)
self.assertEqual(dst, [(1, 2), (5, 15)])
dst = statistic_helper.merge_ranges(src2, src1)
self.assertEqual(dst, [(1, 2), (5, 15)])
def test_merge_ranges_case2(self):
src1 = [(3, 4), (1, 2), (9, 14)]
src2 = [(6, 9), (13, 15)]
dst = statistic_helper.merge_ranges(src1, src2)
self.assertEqual(dst, [(1, 2), (3, 4), (6, 15)])
src2 = [(9, 14), (1, 2), (5, 7)]
src1 = [(4, 9), (1, 2), (13, 15)]
dst = statistic_helper.merge_ranges(src1, src2)
self.assertEqual(dst, [(1, 2), (4, 15)])
def test_intersection_ranges_case1(self):
src1 = [(1, 7), (9, 12), (14, 18)]
src2 = [(3, 8), (10, 13), (15, 19)]
dst = statistic_helper.intersection_ranges(src1, src2)
self.assertEqual(dst, [(3, 7), (10, 12), (15, 18)])
dst = statistic_helper.intersection_ranges(src1, src2, True)
self.assertEqual(dst, [(3, 7), (10, 12), (15, 18)])
src1 = []
src2 = []
dst = statistic_helper.intersection_ranges(src1, src2, True)
self.assertEqual(dst, [])
src1 = [(3, 7), (10, 12)]
src2 = [(2, 9), (11, 13), (15, 19)]
dst = statistic_helper.intersection_ranges(src1, src2)
self.assertEqual(dst, [(3, 7), (11, 12)])
dst = statistic_helper.intersection_ranges(src2, src1)
self.assertEqual(dst, [(3, 7), (11, 12)])
def test_intersection_ranges_case2(self):
src2 = [(9, 12), (1, 7), (14, 18)]
src1 = [(10, 13), (3, 8), (15, 19), (20, 22)]
dst = statistic_helper.intersection_ranges(src1, src2)
self.assertEqual(dst, [(3, 7), (10, 12), (15, 18)])
src2 = [(1, 7), (14, 18), (21, 23)]
src1 = [(6, 9), (10, 13)]
dst = statistic_helper.intersection_ranges(src1, src2, True)
self.assertEqual(dst, [(6, 7)])
def test_subtract_ranges_case1(self):
src1 = [(1, 10), (12, 15)]
src2 = [(3, 7), (9, 11)]
dst = statistic_helper.subtract_ranges(src1, src2, True)
self.assertEqual(dst, [(1, 3), (7, 9), (12, 15)])
src1 = [(1, 10), (12, 15)]
src2 = []
dst = statistic_helper.subtract_ranges(src1, src2, True)
self.assertEqual(dst, src1)
dst = statistic_helper.subtract_ranges(src2, src1, True)
self.assertEqual(dst, src2)
def test_subtract_ranges_case2(self):
src2 = [(12, 15), (1, 10)]
src1 = [(9, 11), (3, 7)]
dst = statistic_helper.subtract_ranges(src1, src2)
self.assertEqual(dst, [(10, 11)])
if __name__ == '__main__':
unittest.main()
python/paddle/profiler/statistic_helper.py 0 → 100644
浏览文件 @ 1f857cb9
# 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 collections
def sum_ranges(ranges):
result = 0
for time_range in ranges:
result += (time_range[1] - time_range[0])
return result
def merge_self_ranges(src_ranges, is_sorted=False):
merged_ranges = []
if len(src_ranges) > 0:
if not is_sorted:
src_ranges.sort(key=lambda x: x[0])
cur_indx = 0
merged_ranges.append((src_ranges[cur_indx][0], src_ranges[cur_indx][1]))
for cur_indx in range(1, len(src_ranges)):
if src_ranges[cur_indx][1] > merged_ranges[-1][1]:
if src_ranges[cur_indx][0] <= merged_ranges[-1][1]:
merged_ranges[-1] = (merged_ranges[-1][0],
src_ranges[cur_indx][1])
else:
merged_ranges.append(
(src_ranges[cur_indx][0], src_ranges[cur_indx][1]))
return merged_ranges
def merge_ranges(range_list1, range_list2, is_sorted=False):
merged_ranges = []
if not is_sorted:
range_list1 = merge_self_ranges(range_list1)
range_list2 = merge_self_ranges(range_list2)
len1 = len(range_list1)
len2 = len(range_list2)
if len1 == 0 and len2 == 0:
return merged_ranges
elif len1 == 0:
return range_list2
elif len2 == 0:
return range_list1
else:
indx1 = 0
indx2 = 0
range1 = range_list1[indx1]
range2 = range_list2[indx2]
if range1[0] < range2[0]:
merged_ranges.append(range1)
indx1 += 1
else:
merged_ranges.append(range2)
indx2 += 1
while indx1 < len1 and indx2 < len2:
range1 = range_list1[indx1]
range2 = range_list2[indx2]
if range1[0] < range2[0]:
if range1[1] > merged_ranges[-1][1]:
if range1[0] <= merged_ranges[-1][1]:
merged_ranges[-1] = (merged_ranges[-1][0], range1[1])
else:
merged_ranges.append((range1[0], range1[1]))
indx1 += 1
else:
indx1 += 1
else:
if range2[1] > merged_ranges[-1][1]:
if range2[0] <= merged_ranges[-1][1]:
merged_ranges[-1] = (merged_ranges[-1][0], range2[1])
else:
merged_ranges.append((range2[0], range2[1]))
indx2 += 1
else:
indx2 += 1
while indx1 < len1:
range1 = range_list1[indx1]
if range1[1] > merged_ranges[-1][1]:
if range1[0] <= merged_ranges[-1][1]:
merged_ranges[-1] = (merged_ranges[-1][0], range1[1])
else:
merged_ranges.append((range1[0], range1[1]))
indx1 += 1
else:
indx1 += 1
while indx2 < len2:
if range2[1] > merged_ranges[-1][1]:
if range2[0] <= merged_ranges[-1][1]:
merged_ranges[-1] = (merged_ranges[-1][0], range2[1])
else:
merged_ranges.append((range2[0], range2[1]))
indx2 += 1
else:
indx2 += 1
return merged_ranges
def intersection_ranges(range_list1, range_list2, is_sorted=False):
result_range = []
if len(range_list1) == 0 or len(range_list2) == 0:
return result_range
if not is_sorted:
range_list1 = merge_self_ranges(range_list1)
range_list2 = merge_self_ranges(range_list2)
len1 = len(range_list1)
len2 = len(range_list2)
indx1 = 0
indx2 = 0
range1 = range_list1[indx1]
range2 = range_list2[indx2]
while indx1 < len1 and indx2 < len2:
if range2[1] <= range1[0]:
indx2 += 1
if indx2 == len2:
break
range2 = range_list2[indx2]
elif range2[0] <= range1[0] and range2[1] < range1[1]:
assert (range2[1] > range1[0])
result_range.append((range1[0], range2[1]))
range1 = (range2[1], range1[1])
indx2 += 1
if indx2 == len2:
break
range2 = range_list2[indx2]
elif range2[0] <= range1[0]:
assert (range2[1] >= range1[1])
result_range.append(range1)
range2 = (range1[1], range2[1])
indx1 += 1
if indx1 == len1:
break
range1 = range_list1[indx1]
elif range2[1] < range1[1]:
assert (range2[0] > range1[0])
result_range.append(range2)
range1 = (range2[1], range1[1])
indx2 += 1
if indx2 == len2:
break
range2 = range_list2[indx2]
elif range2[0] < range1[1]:
assert (range2[1] >= range1[1])
result_range.append((range2[0], range1[1]))
range2 = (range1[1], range2[1])
indx1 += 1
if indx1 == len1:
break
range1 = range_list1[indx1]
else:
assert (range2[0] >= range1[1])
indx1 += 1
if indx1 == len1:
break
range1 = range_list1[indx1]
return result_range
def subtract_ranges(range_list1, range_list2, is_sorted=False):
result_range = []
if not is_sorted:
range_list1 = merge_self_ranges(range_list1)
range_list2 = merge_self_ranges(range_list2)
if len(range_list1) == 0:
return result_range
if len(range_list2) == 0:
return range_list1
len1 = len(range_list1)
len2 = len(range_list2)
indx1 = 0
indx2 = 0
range1 = range_list1[indx1]
range2 = range_list2[indx2]
while indx1 < len(range_list1):
if indx2 == len(range_list2):
result_range.append(range1)
indx1 += 1
if indx1 == len1:
break
range1 = range_list1[indx1]
elif range2[1] <= range1[0]:
indx2 += 1
if indx2 != len2:
range2 = range_list2[indx2]
elif range2[0] <= range1[0] and range2[1] < range1[1]:
range1 = (range2[1], range1[1])
indx2 += 1
if indx2 != len2:
range2 = range_list2[indx2]
elif range2[0] <= range1[0]:
assert (range2[1] >= range1[1])
range2 = (range1[1], range2[1])
indx1 += 1
if indx1 != len1:
range1 = range_list1[indx1]
elif range2[0] < range1[1]:
assert (range2[0] > range1[0])
result_range.append((range1[0], range2[0]))
range1 = (range2[0], range1[1])
else:
assert (range2[0] >= range1[1])
result_range.append(range1)
indx1 += 1
if indx1 != len1:
range1 = range_list1[indx1]
return result_range
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