llvm-project/llvm/unittests/ADT/SparseSetTest.cpp

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//===------ ADT/SparseSetTest.cpp - SparseSet unit tests - -----*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/ADT/SparseSet.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace {
typedef SparseSet<unsigned> USet;
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// Empty set tests.
TEST(SparseSetTest, EmptySet) {
USet Set;
EXPECT_TRUE(Set.empty());
EXPECT_TRUE(Set.begin() == Set.end());
EXPECT_EQ(0u, Set.size());
Set.setUniverse(10);
// Lookups on empty set.
EXPECT_TRUE(Set.find(0) == Set.end());
EXPECT_TRUE(Set.find(9) == Set.end());
// Same thing on a const reference.
const USet &CSet = Set;
EXPECT_TRUE(CSet.empty());
EXPECT_TRUE(CSet.begin() == CSet.end());
EXPECT_EQ(0u, CSet.size());
EXPECT_TRUE(CSet.find(0) == CSet.end());
USet::const_iterator I = CSet.find(5);
EXPECT_TRUE(I == CSet.end());
}
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// Single entry set tests.
TEST(SparseSetTest, SingleEntrySet) {
USet Set;
Set.setUniverse(10);
std::pair<USet::iterator, bool> IP = Set.insert(5);
EXPECT_TRUE(IP.second);
EXPECT_TRUE(IP.first == Set.begin());
EXPECT_FALSE(Set.empty());
EXPECT_FALSE(Set.begin() == Set.end());
EXPECT_TRUE(Set.begin() + 1 == Set.end());
EXPECT_EQ(1u, Set.size());
EXPECT_TRUE(Set.find(0) == Set.end());
EXPECT_TRUE(Set.find(9) == Set.end());
EXPECT_FALSE(Set.count(0));
EXPECT_TRUE(Set.count(5));
// Redundant insert.
IP = Set.insert(5);
EXPECT_FALSE(IP.second);
EXPECT_TRUE(IP.first == Set.begin());
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// Erase non-existent element.
EXPECT_FALSE(Set.erase(1));
EXPECT_EQ(1u, Set.size());
EXPECT_EQ(5u, *Set.begin());
// Erase iterator.
USet::iterator I = Set.find(5);
EXPECT_TRUE(I == Set.begin());
I = Set.erase(I);
EXPECT_TRUE(I == Set.end());
EXPECT_TRUE(Set.empty());
}
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// Multiple entry set tests.
TEST(SparseSetTest, MultipleEntrySet) {
USet Set;
Set.setUniverse(10);
Set.insert(5);
Set.insert(3);
Set.insert(2);
Set.insert(1);
Set.insert(4);
EXPECT_EQ(5u, Set.size());
// Without deletions, iteration order == insertion order.
USet::const_iterator I = Set.begin();
EXPECT_EQ(5u, *I);
++I;
EXPECT_EQ(3u, *I);
++I;
EXPECT_EQ(2u, *I);
++I;
EXPECT_EQ(1u, *I);
++I;
EXPECT_EQ(4u, *I);
++I;
EXPECT_TRUE(I == Set.end());
// Redundant insert.
std::pair<USet::iterator, bool> IP = Set.insert(3);
EXPECT_FALSE(IP.second);
EXPECT_TRUE(IP.first == Set.begin() + 1);
// Erase last element by key.
EXPECT_TRUE(Set.erase(4));
EXPECT_EQ(4u, Set.size());
EXPECT_FALSE(Set.count(4));
EXPECT_FALSE(Set.erase(4));
EXPECT_EQ(4u, Set.size());
EXPECT_FALSE(Set.count(4));
// Erase first element by key.
EXPECT_TRUE(Set.count(5));
EXPECT_TRUE(Set.find(5) == Set.begin());
EXPECT_TRUE(Set.erase(5));
EXPECT_EQ(3u, Set.size());
EXPECT_FALSE(Set.count(5));
EXPECT_FALSE(Set.erase(5));
EXPECT_EQ(3u, Set.size());
EXPECT_FALSE(Set.count(5));
Set.insert(6);
Set.insert(7);
EXPECT_EQ(5u, Set.size());
// Erase last element by iterator.
I = Set.erase(Set.end() - 1);
EXPECT_TRUE(I == Set.end());
EXPECT_EQ(4u, Set.size());
// Erase second element by iterator.
I = Set.erase(Set.begin() + 1);
EXPECT_TRUE(I == Set.begin() + 1);
// Clear and resize the universe.
Set.clear();
EXPECT_FALSE(Set.count(5));
Set.setUniverse(1000);
// Add more than 256 elements.
for (unsigned i = 100; i != 800; ++i)
Set.insert(i);
for (unsigned i = 0; i != 10; ++i)
Set.erase(i);
for (unsigned i = 100; i != 800; ++i)
EXPECT_TRUE(Set.count(i));
EXPECT_FALSE(Set.count(99));
EXPECT_FALSE(Set.count(800));
EXPECT_EQ(700u, Set.size());
}
struct Alt {
unsigned Value;
explicit Alt(unsigned x) : Value(x) {}
unsigned getSparseSetIndex() const { return Value - 1000; }
};
TEST(SparseSetTest, AltStructSet) {
typedef SparseSet<Alt> ASet;
ASet Set;
Set.setUniverse(10);
Set.insert(Alt(1005));
ASet::iterator I = Set.find(5);
ASSERT_TRUE(I == Set.begin());
EXPECT_EQ(1005u, I->Value);
Set.insert(Alt(1006));
Set.insert(Alt(1006));
I = Set.erase(Set.begin());
ASSERT_TRUE(I == Set.begin());
EXPECT_EQ(1006u, I->Value);
EXPECT_FALSE(Set.erase(5));
EXPECT_TRUE(Set.erase(6));
}
TEST(SparseSetTest, PopBack) {
USet Set;
const unsigned UpperBound = 300;
Set.setUniverse(UpperBound);
for (unsigned i = 0; i < UpperBound; ++i)
Set.insert(i);
// Make sure pop back returns the values in the reverse order we
// inserted them.
unsigned Expected = UpperBound;
while (!Set.empty())
ASSERT_TRUE(--Expected == Set.pop_back_val());
// Insert again the same elements in the sparse set and make sure
// each insertion actually inserts the elements. I.e., check
// that the underlying data structure are properly cleared.
for (unsigned i = 0; i < UpperBound; ++i)
ASSERT_TRUE(Set.insert(i).second);
}
} // namespace