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fuchsia / third_party / swift / refs/tags/swift-DEVELOPMENT-SNAPSHOT-2016-08-07-a / . / unittests / Basic / ImmutablePointerSetTests.cpp
blob: 79868eb932ad40452c403792b41fc5ae89dee500 [file] [log] [blame]
#include "swift/Basic/ImmutablePointerSet.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/Support/Allocator.h"
#include "gtest/gtest.h"
using namespace swift;
TEST(ImmutableSortedSet, OneElementSets) {
llvm::BumpPtrAllocator BPA;
ImmutablePointerSetFactory<unsigned> F(BPA);
unsigned *ptr1 = (unsigned *)3;
auto *OneEltSet1 = F.get(ptr1);
EXPECT_EQ(OneEltSet1, F.get(ptr1));
EXPECT_EQ(OneEltSet1, F.merge(OneEltSet1, OneEltSet1));
unsigned *ptr2 = (unsigned *)2;
auto *OneEltSet2 = F.get(ptr2);
EXPECT_EQ(OneEltSet2, F.get(ptr2));
EXPECT_EQ(OneEltSet2, F.merge(OneEltSet2, OneEltSet2));
EXPECT_NE(OneEltSet2, OneEltSet1);
auto *Merge1 = F.merge(OneEltSet1, OneEltSet2);
auto *Merge2 = F.merge(OneEltSet2, OneEltSet1);
EXPECT_NE(OneEltSet1, Merge1);
EXPECT_NE(OneEltSet2, Merge1);
EXPECT_EQ(Merge1, Merge2);
EXPECT_EQ(Merge1, F.merge(Merge1, Merge1));
EXPECT_EQ(Merge2, F.merge(Merge2, Merge2));
EXPECT_EQ(Merge1, F.merge(Merge1, OneEltSet1));
EXPECT_EQ(Merge1, F.merge(Merge1, OneEltSet2));
EXPECT_EQ(Merge1->size(), 2U);
EXPECT_FALSE(Merge1->empty());
EXPECT_EQ(*Merge1->begin(), (unsigned *)2);
EXPECT_EQ(*std::next(Merge1->begin()), (unsigned *)3);
EXPECT_EQ(F.getEmptySet(), F.getEmptySet());
EXPECT_EQ(OneEltSet1, F.merge(F.getEmptySet(), OneEltSet1));
EXPECT_EQ(OneEltSet1, F.merge(OneEltSet1, F.getEmptySet()));
}
TEST(ImmutablePointerSet, MultipleElementSets) {
llvm::BumpPtrAllocator BPA;
ImmutablePointerSetFactory<unsigned> F(BPA);
unsigned *Ptr1 = (unsigned *)3;
unsigned *Ptr2 = (unsigned *)4;
unsigned *Ptr3 = (unsigned *)3;
unsigned *Ptr4 = (unsigned *)5;
unsigned *Ptr5 = (unsigned *)6;
ArrayRef<unsigned *> Data1 = {Ptr1, Ptr2};
auto *TwoEltSet = F.get(Data1);
EXPECT_FALSE(TwoEltSet->empty());
EXPECT_EQ(TwoEltSet->size(), 2u);
EXPECT_TRUE(TwoEltSet->count(Ptr1));
EXPECT_TRUE(TwoEltSet->count(Ptr2));
EXPECT_TRUE(TwoEltSet->count(Ptr3));
EXPECT_FALSE(TwoEltSet->count(Ptr4));
EXPECT_FALSE(TwoEltSet->count(Ptr5));
auto *ThreeEltSet = F.merge(F.get(Ptr4), TwoEltSet);
EXPECT_FALSE(ThreeEltSet->empty());
EXPECT_EQ(ThreeEltSet->size(), 3u);
EXPECT_NE(*ThreeEltSet, *TwoEltSet);
EXPECT_TRUE(ThreeEltSet->count(Ptr1));
EXPECT_TRUE(ThreeEltSet->count(Ptr2));
EXPECT_TRUE(ThreeEltSet->count(Ptr3));
EXPECT_TRUE(ThreeEltSet->count(Ptr4));
EXPECT_FALSE(ThreeEltSet->count(Ptr5));
EXPECT_EQ(ThreeEltSet, F.merge(TwoEltSet, ThreeEltSet));
ArrayRef<unsigned *> Data2 = {Ptr3, Ptr4, Ptr5};
auto *PartialOverlapSet = F.get(Data2);
EXPECT_FALSE(PartialOverlapSet->empty());
EXPECT_EQ(PartialOverlapSet->size(), 3u);
EXPECT_TRUE(PartialOverlapSet->count(Ptr1));
EXPECT_FALSE(PartialOverlapSet->count(Ptr2));
EXPECT_TRUE(PartialOverlapSet->count(Ptr3));
EXPECT_TRUE(PartialOverlapSet->count(Ptr4));
EXPECT_TRUE(PartialOverlapSet->count(Ptr5));
EXPECT_NE(*PartialOverlapSet, *ThreeEltSet);
EXPECT_NE(*PartialOverlapSet, *TwoEltSet);
auto *MixOfThreeAndPartialOverlap = ThreeEltSet->merge(PartialOverlapSet);
EXPECT_FALSE(MixOfThreeAndPartialOverlap->empty());
EXPECT_EQ(MixOfThreeAndPartialOverlap->size(), 4u);
EXPECT_TRUE(MixOfThreeAndPartialOverlap->count(Ptr1));
EXPECT_TRUE(MixOfThreeAndPartialOverlap->count(Ptr2));
EXPECT_TRUE(MixOfThreeAndPartialOverlap->count(Ptr3));
EXPECT_TRUE(MixOfThreeAndPartialOverlap->count(Ptr4));
EXPECT_TRUE(MixOfThreeAndPartialOverlap->count(Ptr5));
EXPECT_NE(*MixOfThreeAndPartialOverlap, *PartialOverlapSet);
EXPECT_NE(*MixOfThreeAndPartialOverlap, *ThreeEltSet);
EXPECT_NE(*MixOfThreeAndPartialOverlap, *TwoEltSet);
}
TEST(ImmutablePointerSet, EmptyIntersectionTests) {
llvm::BumpPtrAllocator BPA;
ImmutablePointerSetFactory<unsigned> F(BPA);
unsigned *Ptr1 = (unsigned *)3;
unsigned *Ptr2 = (unsigned *)4;
unsigned *Ptr3 = (unsigned *)3;
unsigned *Ptr4 = (unsigned *)5;
unsigned *Ptr5 = (unsigned *)6;
ArrayRef<unsigned *> Data1 = {Ptr1, Ptr2};
ArrayRef<unsigned *> Data2 = {Ptr3, Ptr2};
ArrayRef<unsigned *> Data3 = {Ptr4, Ptr5};
ArrayRef<unsigned *> Data4 = {Ptr2, Ptr4};
EXPECT_FALSE(F.get(Data1)->hasEmptyIntersection(F.get(Data2)));
EXPECT_TRUE(F.get(Data1)->hasEmptyIntersection(F.get(Data3)));
EXPECT_FALSE(F.get(Data1)->hasEmptyIntersection(F.get(Data4)));
}