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v8/test/unittests/compiler/regalloc/live-range-unittest.cc
Clemens Hammacher a335f2aeed [cleanup] Replace simple typedefs by using 
This replaces all typedefs that define types and not functions by the
equivalent "using" declaration.

This was done mostly automatically using this command:
ag -l '\btypedef\b' src test | xargs -L1 \
     perl -i -p0e 's/typedef ([^*;{}]+) (\w+);/using \2 = \1;/sg'

Patchset 2 then adds some manual changes for typedefs for pointer types,
where the regular expression did not match.

R=mstarzinger@chromium.org
TBR=yangguo@chromium.org, jarin@chromium.org

Bug: v8:9183
Change-Id: I6f6ee28d1793b7ac34a58f980b94babc21874b78
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1631409
Commit-Queue: Clemens Hammacher <clemensh@chromium.org>
Reviewed-by: Michael Starzinger <mstarzinger@chromium.org>
Cr-Commit-Position: refs/heads/master@{#61849}
2019-05-27 12:39:49 +00:00

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// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/compiler/backend/register-allocator.h"
#include "test/unittests/test-utils.h"
// TODO(mtrofin): would we want to centralize this definition?
#ifdef DEBUG
#define V8_ASSERT_DEBUG_DEATH(statement, regex) \
ASSERT_DEATH_IF_SUPPORTED(statement, regex)
#define DISABLE_IN_RELEASE(Name) Name
#else
#define V8_ASSERT_DEBUG_DEATH(statement, regex) statement
#define DISABLE_IN_RELEASE(Name) DISABLED_##Name
#endif // DEBUG
namespace v8 {
namespace internal {
namespace compiler {
// Utility offering shorthand syntax for building up a range by providing its ID
// and pairs (start, end) specifying intervals. Circumvents current incomplete
// support for C++ features such as instantiation lists, on OS X and Android.
class TestRangeBuilder {
public:
explicit TestRangeBuilder(Zone* zone)
: id_(-1), pairs_(), uses_(), zone_(zone) {}
TestRangeBuilder& Id(int id) {
id_ = id;
return *this;
}
TestRangeBuilder& Add(int start, int end) {
pairs_.push_back({start, end});
return *this;
}
TestRangeBuilder& AddUse(int pos) {
uses_.insert(pos);
return *this;
}
TopLevelLiveRange* Build(int start, int end) {
return Add(start, end).Build();
}
TopLevelLiveRange* Build() {
TopLevelLiveRange* range =
new (zone_) TopLevelLiveRange(id_, MachineRepresentation::kTagged);
// Traverse the provided interval specifications backwards, because that is
// what LiveRange expects.
for (int i = static_cast<int>(pairs_.size()) - 1; i >= 0; --i) {
Interval pair = pairs_[i];
LifetimePosition start = LifetimePosition::FromInt(pair.first);
LifetimePosition end = LifetimePosition::FromInt(pair.second);
CHECK(start < end);
range->AddUseInterval(start, end, zone_);
}
for (int pos : uses_) {
UsePosition* use_position =
new (zone_) UsePosition(LifetimePosition::FromInt(pos), nullptr,
nullptr, UsePositionHintType::kNone);
range->AddUsePosition(use_position);
}
pairs_.clear();
return range;
}
private:
using Interval = std::pair<int, int>;
using IntervalList = std::vector<Interval>;
int id_;
IntervalList pairs_;
std::set<int> uses_;
Zone* zone_;
};
class LiveRangeUnitTest : public TestWithZone {
public:
// Split helper, to avoid int->LifetimePosition conversion nuisance.
LiveRange* Split(LiveRange* range, int pos) {
return range->SplitAt(LifetimePosition::FromInt(pos), zone());
}
TopLevelLiveRange* Splinter(TopLevelLiveRange* top, int start, int end,
int new_id = 0) {
if (top->splinter() == nullptr) {
TopLevelLiveRange* ret = new (zone())
TopLevelLiveRange(new_id, MachineRepresentation::kTagged);
top->SetSplinter(ret);
}
top->Splinter(LifetimePosition::FromInt(start),
LifetimePosition::FromInt(end), zone());
return top->splinter();
}
// Ranges first and second match structurally.
bool RangesMatch(LiveRange* first, LiveRange* second) {
if (first->Start() != second->Start() || first->End() != second->End()) {
return false;
}
UseInterval* i1 = first->first_interval();
UseInterval* i2 = second->first_interval();
while (i1 != nullptr && i2 != nullptr) {
if (i1->start() != i2->start() || i1->end() != i2->end()) return false;
i1 = i1->next();
i2 = i2->next();
}
if (i1 != nullptr || i2 != nullptr) return false;
UsePosition* p1 = first->first_pos();
UsePosition* p2 = second->first_pos();
while (p1 != nullptr && p2 != nullptr) {
if (p1->pos() != p2->pos()) return false;
p1 = p1->next();
p2 = p2->next();
}
if (p1 != nullptr || p2 != nullptr) return false;
return true;
}
};
TEST_F(LiveRangeUnitTest, InvalidConstruction) {
// Build a range manually, because the builder guards against empty cases.
TopLevelLiveRange* range =
new (zone()) TopLevelLiveRange(1, MachineRepresentation::kTagged);
V8_ASSERT_DEBUG_DEATH(
range->AddUseInterval(LifetimePosition::FromInt(0),
LifetimePosition::FromInt(0), zone()),
".*");
}
TEST_F(LiveRangeUnitTest, SplitInvalidStart) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(0, 1);
V8_ASSERT_DEBUG_DEATH(Split(range, 0), ".*");
}
TEST_F(LiveRangeUnitTest, DISABLE_IN_RELEASE(InvalidSplitEnd)) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(0, 1);
ASSERT_DEATH_IF_SUPPORTED(Split(range, 1), ".*");
}
TEST_F(LiveRangeUnitTest, DISABLE_IN_RELEASE(SplitInvalidPreStart)) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(1, 2);
ASSERT_DEATH_IF_SUPPORTED(Split(range, 0), ".*");
}
TEST_F(LiveRangeUnitTest, DISABLE_IN_RELEASE(SplitInvalidPostEnd)) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(0, 1);
ASSERT_DEATH_IF_SUPPORTED(Split(range, 2), ".*");
}
TEST_F(LiveRangeUnitTest, SplitSingleIntervalNoUsePositions) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(0, 2);
LiveRange* child = Split(range, 1);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top = TestRangeBuilder(zone()).Build(0, 1);
LiveRange* expected_bottom = TestRangeBuilder(zone()).Build(1, 2);
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalNoUsePositionsBetween) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).Build();
LiveRange* child = Split(range, 3);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top = TestRangeBuilder(zone()).Build(0, 2);
LiveRange* expected_bottom = TestRangeBuilder(zone()).Build(4, 6);
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalNoUsePositionsFront) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).Build();
LiveRange* child = Split(range, 1);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top = TestRangeBuilder(zone()).Build(0, 1);
LiveRange* expected_bottom =
TestRangeBuilder(zone()).Add(1, 2).Add(4, 6).Build();
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalNoUsePositionsAfter) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).Build();
LiveRange* child = Split(range, 5);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 5).Build();
LiveRange* expected_bottom = TestRangeBuilder(zone()).Build(5, 6);
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitSingleIntervalUsePositions) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).AddUse(0).AddUse(2).Build();
LiveRange* child = Split(range, 1);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 1).AddUse(0).Build();
LiveRange* expected_bottom =
TestRangeBuilder(zone()).Add(1, 3).AddUse(2).Build();
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitSingleIntervalUsePositionsAtPos) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).AddUse(0).AddUse(2).Build();
LiveRange* child = Split(range, 2);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 2).AddUse(0).AddUse(2).Build();
LiveRange* expected_bottom = TestRangeBuilder(zone()).Build(2, 3);
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalUsePositionsBetween) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).AddUse(1).AddUse(5).Build();
LiveRange* child = Split(range, 3);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 2).AddUse(1).Build();
LiveRange* expected_bottom =
TestRangeBuilder(zone()).Add(4, 6).AddUse(5).Build();
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalUsePositionsAtInterval) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).AddUse(1).AddUse(4).Build();
LiveRange* child = Split(range, 4);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 2).AddUse(1).Build();
LiveRange* expected_bottom =
TestRangeBuilder(zone()).Add(4, 6).AddUse(4).Build();
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalUsePositionsFront) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).AddUse(1).AddUse(5).Build();
LiveRange* child = Split(range, 1);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 1).AddUse(1).Build();
LiveRange* expected_bottom =
TestRangeBuilder(zone()).Add(1, 2).Add(4, 6).AddUse(5).Build();
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplitManyIntervalUsePositionsAfter) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 6).AddUse(1).AddUse(5).Build();
LiveRange* child = Split(range, 5);
EXPECT_NE(nullptr, range->next());
EXPECT_EQ(child, range->next());
LiveRange* expected_top =
TestRangeBuilder(zone()).Add(0, 2).Add(4, 5).AddUse(1).AddUse(5).Build();
LiveRange* expected_bottom = TestRangeBuilder(zone()).Build(5, 6);
EXPECT_TRUE(RangesMatch(expected_top, range));
EXPECT_TRUE(RangesMatch(expected_bottom, child));
}
TEST_F(LiveRangeUnitTest, SplinterSingleInterval) {
TopLevelLiveRange* range = TestRangeBuilder(zone()).Build(0, 6);
TopLevelLiveRange* splinter = Splinter(range, 3, 5);
EXPECT_EQ(nullptr, range->next());
EXPECT_EQ(nullptr, splinter->next());
EXPECT_EQ(range, splinter->splintered_from());
TopLevelLiveRange* expected_source =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 6).Build();
TopLevelLiveRange* expected_splinter = TestRangeBuilder(zone()).Build(3, 5);
EXPECT_TRUE(RangesMatch(expected_source, range));
EXPECT_TRUE(RangesMatch(expected_splinter, splinter));
}
TEST_F(LiveRangeUnitTest, MergeSingleInterval) {
TopLevelLiveRange* original = TestRangeBuilder(zone()).Build(0, 6);
TopLevelLiveRange* splinter = Splinter(original, 3, 5);
original->Merge(splinter, zone());
TopLevelLiveRange* result = TestRangeBuilder(zone()).Build(0, 6);
LiveRange* child_1 = Split(result, 3);
Split(child_1, 5);
EXPECT_TRUE(RangesMatch(result, original));
}
TEST_F(LiveRangeUnitTest, SplinterMultipleIntervalsOutside) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(range, 2, 6);
EXPECT_EQ(nullptr, range->next());
EXPECT_EQ(nullptr, splinter->next());
EXPECT_EQ(range, splinter->splintered_from());
TopLevelLiveRange* expected_source =
TestRangeBuilder(zone()).Add(0, 2).Add(6, 8).Build();
TopLevelLiveRange* expected_splinter =
TestRangeBuilder(zone()).Add(2, 3).Add(5, 6).Build();
EXPECT_TRUE(RangesMatch(expected_source, range));
EXPECT_TRUE(RangesMatch(expected_splinter, splinter));
}
TEST_F(LiveRangeUnitTest, MergeMultipleIntervalsOutside) {
TopLevelLiveRange* original =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(original, 2, 6);
original->Merge(splinter, zone());
TopLevelLiveRange* result =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
LiveRange* child_1 = Split(result, 2);
Split(child_1, 6);
EXPECT_TRUE(RangesMatch(result, original));
}
TEST_F(LiveRangeUnitTest, SplinterMultipleIntervalsInside) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
V8_ASSERT_DEBUG_DEATH(Splinter(range, 3, 5), ".*");
}
TEST_F(LiveRangeUnitTest, SplinterMultipleIntervalsLeft) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(range, 2, 4);
EXPECT_EQ(nullptr, range->next());
EXPECT_EQ(nullptr, splinter->next());
EXPECT_EQ(range, splinter->splintered_from());
TopLevelLiveRange* expected_source =
TestRangeBuilder(zone()).Add(0, 2).Add(5, 8).Build();
TopLevelLiveRange* expected_splinter = TestRangeBuilder(zone()).Build(2, 3);
EXPECT_TRUE(RangesMatch(expected_source, range));
EXPECT_TRUE(RangesMatch(expected_splinter, splinter));
}
TEST_F(LiveRangeUnitTest, MergeMultipleIntervalsLeft) {
TopLevelLiveRange* original =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(original, 2, 4);
original->Merge(splinter, zone());
TopLevelLiveRange* result =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
Split(result, 2);
EXPECT_TRUE(RangesMatch(result, original));
}
TEST_F(LiveRangeUnitTest, SplinterMultipleIntervalsRight) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(range, 4, 6);
EXPECT_EQ(nullptr, range->next());
EXPECT_EQ(nullptr, splinter->next());
EXPECT_EQ(range, splinter->splintered_from());
TopLevelLiveRange* expected_source =
TestRangeBuilder(zone()).Add(0, 3).Add(6, 8).Build();
TopLevelLiveRange* expected_splinter = TestRangeBuilder(zone()).Build(5, 6);
EXPECT_TRUE(RangesMatch(expected_source, range));
EXPECT_TRUE(RangesMatch(expected_splinter, splinter));
}
TEST_F(LiveRangeUnitTest, SplinterMergeMultipleTimes) {
TopLevelLiveRange* range =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 10).Add(12, 16).Build();
Splinter(range, 4, 6);
Splinter(range, 8, 14);
TopLevelLiveRange* splinter = range->splinter();
EXPECT_EQ(nullptr, range->next());
EXPECT_EQ(nullptr, splinter->next());
EXPECT_EQ(range, splinter->splintered_from());
TopLevelLiveRange* expected_source =
TestRangeBuilder(zone()).Add(0, 3).Add(6, 8).Add(14, 16).Build();
TopLevelLiveRange* expected_splinter =
TestRangeBuilder(zone()).Add(5, 6).Add(8, 10).Add(12, 14).Build();
EXPECT_TRUE(RangesMatch(expected_source, range));
EXPECT_TRUE(RangesMatch(expected_splinter, splinter));
}
TEST_F(LiveRangeUnitTest, MergeMultipleIntervalsRight) {
TopLevelLiveRange* original =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
TopLevelLiveRange* splinter = Splinter(original, 4, 6);
original->Merge(splinter, zone());
TopLevelLiveRange* result =
TestRangeBuilder(zone()).Add(0, 3).Add(5, 8).Build();
LiveRange* child_1 = Split(result, 5);
Split(child_1, 6);
EXPECT_TRUE(RangesMatch(result, original));
}
TEST_F(LiveRangeUnitTest, MergeAfterSplitting) {
TopLevelLiveRange* original = TestRangeBuilder(zone()).Build(0, 8);
TopLevelLiveRange* splinter = Splinter(original, 4, 6);
LiveRange* original_child = Split(original, 2);
Split(original_child, 7);
original->Merge(splinter, zone());
TopLevelLiveRange* result = TestRangeBuilder(zone()).Build(0, 8);
LiveRange* child_1 = Split(result, 2);
LiveRange* child_2 = Split(child_1, 4);
LiveRange* child_3 = Split(child_2, 6);
Split(child_3, 7);
EXPECT_TRUE(RangesMatch(result, original));
}
TEST_F(LiveRangeUnitTest, IDGeneration) {
TopLevelLiveRange* vreg = TestRangeBuilder(zone()).Id(2).Build(0, 100);
EXPECT_EQ(2, vreg->vreg());
EXPECT_EQ(0, vreg->relative_id());
TopLevelLiveRange* splinter =
new (zone()) TopLevelLiveRange(101, MachineRepresentation::kTagged);
vreg->SetSplinter(splinter);
vreg->Splinter(LifetimePosition::FromInt(4), LifetimePosition::FromInt(12),
zone());
EXPECT_EQ(101, splinter->vreg());
EXPECT_EQ(1, splinter->relative_id());
LiveRange* child = vreg->SplitAt(LifetimePosition::FromInt(50), zone());
EXPECT_EQ(2, child->relative_id());
LiveRange* splinter_child =
splinter->SplitAt(LifetimePosition::FromInt(8), zone());
EXPECT_EQ(1, splinter->relative_id());
EXPECT_EQ(3, splinter_child->relative_id());
vreg->Merge(splinter, zone());
EXPECT_EQ(1, splinter->relative_id());
}
} // namespace compiler
} // namespace internal
} // namespace v8
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