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212 lines
7.8 KiB
C++
212 lines
7.8 KiB
C++
/*
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* Copyright (c) Contributors to the Open 3D Engine Project.
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* For complete copyright and license terms please see the LICENSE at the root of this distribution.
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*
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* SPDX-License-Identifier: Apache-2.0 OR MIT
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*
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*/
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#include "RHITestFixture.h"
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#include <Atom/RHI/interval_map.h>
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namespace UnitTest
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{
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using namespace AZ;
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class IntervalMapTests
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: public RHITestFixture
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{
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public:
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IntervalMapTests()
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: RHITestFixture()
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{}
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protected:
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RHI::interval_map<uint32_t, uint32_t> m_intervalMap;
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};
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TEST_F(IntervalMapTests, TestEmpty)
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{
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EXPECT_TRUE(m_intervalMap.empty());
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}
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TEST_F(IntervalMapTests, TestAssign)
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{
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RHI::Interval interval(232, 12312);
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auto it = m_intervalMap.assign(interval.m_min, interval.m_max, 1337);
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EXPECT_FALSE(m_intervalMap.empty());
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EXPECT_EQ(it, m_intervalMap.begin());
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EXPECT_EQ(m_intervalMap.begin().value(), 1337);
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}
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TEST_F(IntervalMapTests, TestAssignInvalidInterval)
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{
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RHI::Interval interval(12312, 232);
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auto it = m_intervalMap.assign(interval.m_min, interval.m_max, 1337);
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EXPECT_TRUE(m_intervalMap.empty());
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EXPECT_EQ(it, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestAt)
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{
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RHI::Interval interval(232, 12312);
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m_intervalMap.assign(interval.m_min, interval.m_max, 1337);
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EXPECT_FALSE(m_intervalMap.empty());
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EXPECT_EQ(m_intervalMap.begin().value(), 1337);
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EXPECT_EQ(m_intervalMap.at(interval.m_min), m_intervalMap.begin());
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EXPECT_EQ(m_intervalMap.at(interval.m_max), m_intervalMap.end());
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EXPECT_EQ(m_intervalMap.at(interval.m_min + 1), m_intervalMap.begin());
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EXPECT_EQ(m_intervalMap.at(interval.m_max + 1), m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestAtMultipleIntervals)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(600, 1000);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1338);
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auto iterator1 = m_intervalMap.at(interval1.m_min);
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auto iterator2 = m_intervalMap.at(interval2.m_min);
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EXPECT_EQ(iterator1.value(), 1337);
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EXPECT_EQ(iterator1.interval_begin(), interval1.m_min);
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EXPECT_EQ(iterator1.interval_end(), interval1.m_max);
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EXPECT_EQ(iterator2.value(), 1338);
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EXPECT_EQ(iterator2.interval_begin(), interval2.m_min);
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EXPECT_EQ(iterator2.interval_end(), interval2.m_max);
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EXPECT_EQ(m_intervalMap.at(interval1.m_max), m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestMergeIntervals)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(500, 1000);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1337);
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auto iter = m_intervalMap.begin();
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EXPECT_FALSE(m_intervalMap.empty());
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EXPECT_EQ(iter.value(), 1337);
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EXPECT_EQ(iter.interval_begin(), interval1.m_min);
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EXPECT_EQ(iter.interval_end(), interval2.m_max);
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iter++;
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EXPECT_EQ(iter, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestNoMergeIntervals)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(500, 1000);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1338);
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auto iter = m_intervalMap.begin();
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EXPECT_FALSE(m_intervalMap.empty());
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EXPECT_EQ(iter.value(), 1337);
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EXPECT_EQ(iter.interval_begin(), interval1.m_min);
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EXPECT_EQ(iter.interval_end(), interval1.m_max);
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iter++;
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EXPECT_EQ(iter.value(), 1338);
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EXPECT_EQ(iter.interval_begin(), interval2.m_min);
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EXPECT_EQ(iter.interval_end(), interval2.m_max);
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iter++;
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EXPECT_EQ(iter, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestOverlapSingleInterval)
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{
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RHI::Interval interval(0, 500);
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m_intervalMap.assign(interval.m_min, interval.m_max, 1337);
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auto overlap = m_intervalMap.overlap(interval.m_min, interval.m_max);
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EXPECT_EQ(overlap.first, m_intervalMap.begin());
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EXPECT_EQ(overlap.second, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestOverlapMultipleIntervals)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(600, 1000);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1338);
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auto overlap = m_intervalMap.overlap(interval1.m_min, interval2.m_max);
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auto iter = overlap.first;
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EXPECT_EQ(iter.value(), 1337);
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EXPECT_EQ(iter.interval_begin(), interval1.m_min);
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EXPECT_EQ(iter.interval_end(), interval1.m_max);
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iter++;
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EXPECT_EQ(iter.value(), 1338);
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EXPECT_EQ(iter.interval_begin(), interval2.m_min);
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EXPECT_EQ(iter.interval_end(), interval2.m_max);
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iter++;
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EXPECT_EQ(iter, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestNoOverlap)
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{
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RHI::Interval interval(0, 500);
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m_intervalMap.assign(interval.m_min, interval.m_max, 1337);
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auto overlap = m_intervalMap.overlap(interval.m_max, interval.m_max + 1);
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EXPECT_EQ(overlap.first, m_intervalMap.end());
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EXPECT_EQ(overlap.second, m_intervalMap.end());
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}
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TEST_F(IntervalMapTests, TestErase)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(500, 1000);
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RHI::Interval interval3(1000, 1500);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1338);
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m_intervalMap.assign(interval3.m_min, interval3.m_max, 1339);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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auto iter = m_intervalMap.at(interval2.m_min);
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EXPECT_EQ(iter.value(), 1338);
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EXPECT_EQ(iter.interval_begin(), interval2.m_min);
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EXPECT_EQ(iter.interval_end(), interval2.m_max);
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auto iter2 = m_intervalMap.erase(iter);
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EXPECT_EQ(iter2.value(), 1339);
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EXPECT_EQ(iter2.interval_begin(), interval3.m_min);
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EXPECT_EQ(iter2.interval_end(), interval3.m_max);
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auto iter3 = m_intervalMap.erase(iter2);
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EXPECT_EQ(iter3, m_intervalMap.end());
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EXPECT_EQ(m_intervalMap.begin().value(), 1337);
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EXPECT_EQ(m_intervalMap.begin().interval_begin(), interval1.m_min);
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EXPECT_EQ(m_intervalMap.begin().interval_end(), interval1.m_max);
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m_intervalMap.erase(m_intervalMap.begin());
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EXPECT_TRUE(m_intervalMap.empty());
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}
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TEST_F(IntervalMapTests, TestEraseComplex)
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{
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RHI::Interval interval1(0, 500);
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RHI::Interval interval2(600, 1000);
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RHI::Interval interval3(1100, 1500);
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m_intervalMap.assign(interval2.m_min, interval2.m_max, 1338);
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m_intervalMap.assign(interval3.m_min, interval3.m_max, 1339);
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m_intervalMap.assign(interval1.m_min, interval1.m_max, 1337);
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auto iter = m_intervalMap.at(interval2.m_min);
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EXPECT_EQ(iter.value(), 1338);
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EXPECT_EQ(iter.interval_begin(), interval2.m_min);
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EXPECT_EQ(iter.interval_end(), interval2.m_max);
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auto iter2 = m_intervalMap.erase(iter);
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EXPECT_EQ(iter2.value(), 1339);
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EXPECT_EQ(iter2.interval_begin(), interval3.m_min);
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EXPECT_EQ(iter2.interval_end(), interval3.m_max);
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auto iter3 = m_intervalMap.erase(iter2);
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EXPECT_EQ(iter3, m_intervalMap.end());
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EXPECT_EQ(m_intervalMap.begin().value(), 1337);
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EXPECT_EQ(m_intervalMap.begin().interval_begin(), interval1.m_min);
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EXPECT_EQ(m_intervalMap.begin().interval_end(), interval1.m_max);
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m_intervalMap.erase(m_intervalMap.begin());
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EXPECT_TRUE(m_intervalMap.empty());
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}
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}
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