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ADTTests.cpp
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#include "swift/Basic/OptionSet.h"
#include "swift/Basic/ValueEnumerator.h"
#include "gtest/gtest.h"
using namespace swift;
TEST(OptionSet, contains) {
enum class Flags {
A = 1 << 0,
B = 1 << 1,
C = 1 << 2
};
OptionSet<Flags> emptySet;
OptionSet<Flags> aSet = Flags::A;
OptionSet<Flags> abSet = aSet | Flags::B;
OptionSet<Flags> abcSet = abSet | Flags::C;
OptionSet<Flags> bcSet = abcSet - Flags::A;
OptionSet<Flags> cSet = bcSet - Flags::B;
EXPECT_TRUE(emptySet.contains(emptySet));
EXPECT_FALSE(emptySet.contains(aSet));
EXPECT_FALSE(emptySet.contains(abSet));
EXPECT_FALSE(emptySet.contains(abcSet));
EXPECT_FALSE(emptySet.contains(bcSet));
EXPECT_FALSE(emptySet.contains(cSet));
EXPECT_TRUE(aSet.contains(emptySet));
EXPECT_TRUE(aSet.contains(aSet));
EXPECT_FALSE(aSet.contains(abSet));
EXPECT_FALSE(aSet.contains(abcSet));
EXPECT_FALSE(aSet.contains(bcSet));
EXPECT_FALSE(aSet.contains(cSet));
EXPECT_TRUE(abSet.contains(emptySet));
EXPECT_TRUE(abSet.contains(aSet));
EXPECT_TRUE(abSet.contains(abSet));
EXPECT_FALSE(abSet.contains(abcSet));
EXPECT_FALSE(abSet.contains(bcSet));
EXPECT_FALSE(abSet.contains(cSet));
EXPECT_TRUE(abcSet.contains(emptySet));
EXPECT_TRUE(abcSet.contains(aSet));
EXPECT_TRUE(abcSet.contains(abSet));
EXPECT_TRUE(abcSet.contains(abcSet));
EXPECT_TRUE(abcSet.contains(bcSet));
EXPECT_TRUE(abcSet.contains(cSet));
}
TEST(OptionSet, intptr_t) {
enum class Small : int8_t {
A = 1 << 0
};
OptionSet<Small> small = Small::A;
EXPECT_EQ(static_cast<intptr_t>(Small::A), static_cast<intptr_t>(small));
enum class UPtr : uintptr_t {
A = std::numeric_limits<uintptr_t>::max()
};
OptionSet<UPtr> uptr = UPtr::A;
EXPECT_EQ(static_cast<intptr_t>(UPtr::A), static_cast<intptr_t>(uptr));
enum class Ptr : intptr_t {
A = std::numeric_limits<intptr_t>::min()
};
OptionSet<Ptr> ptr = Ptr::A;
EXPECT_EQ(static_cast<intptr_t>(Ptr::A), static_cast<intptr_t>(ptr));
}
TEST(OptionSet, intptr_t_isConstructible) {
// First check that std::is_constructible counts explicit conversion
// operators.
class AlwaysConvertible {
public:
explicit operator intptr_t () const { return 0; }
};
if (!std::is_constructible<intptr_t, AlwaysConvertible>::value) {
// std::is_constructible doesn't test what we want it to. Just exit early.
return;
}
enum class LongLong : unsigned long long {
A = 1
};
bool isConvertible =
std::is_constructible<intptr_t, OptionSet<LongLong>>::value;
if (sizeof(intptr_t) < sizeof(long long)) {
EXPECT_FALSE(isConvertible);
} else {
EXPECT_TRUE(isConvertible);
}
}
TEST(ValueEnumerator, basic) {
{
ValueEnumerator<int> Trans;
// Check that indexing is persistent.
EXPECT_EQ(Trans.getIndex(99), Trans.getIndex(99));
EXPECT_EQ(Trans.getIndex(100), Trans.getIndex(100));
// Check that we don't have collisions.
bool SameIndex = Trans.getIndex(82) == Trans.getIndex(73);
EXPECT_FALSE(SameIndex);
// Check that invalidation works.
// After invalidation the old index must not be equal to the new index.
size_t oldIndex = Trans.getIndex(99);
Trans.invalidateValue(99);
size_t newIndex = Trans.getIndex(99);
EXPECT_FALSE(newIndex == oldIndex);
}
{
const char *string_1 = "hello";
const char *string_2 = "goodbye";
const char *string_3 = ":-)";
ValueEnumerator<const char*> Trans;
EXPECT_EQ(Trans.getIndex(nullptr), Trans.getIndex(nullptr));
EXPECT_EQ(Trans.getIndex(string_1), Trans.getIndex(string_1));
EXPECT_EQ(Trans.getIndex(string_2), Trans.getIndex(string_2));
// Check that invalidation works.
size_t oldIndex = Trans.getIndex(string_3);
Trans.invalidateValue(string_3);
size_t newIndex = Trans.getIndex(string_3);
EXPECT_FALSE(newIndex == oldIndex);
// Check that different values don't give the same index.
EXPECT_FALSE(Trans.getIndex(string_2) == Trans.getIndex(string_3));
}
{
ValueEnumerator<int> Trans;
// Check a bunch of integers.
for (int i = 1; i < 10000; i++) {
EXPECT_TRUE(Trans.getIndex(0) != Trans.getIndex(i));
}
// Check that there are no accidental collisions.
for (int i = 0; i < 10000; i++) {
for (int j = 1; j < 10; j++) {
EXPECT_TRUE(Trans.getIndex(i) != Trans.getIndex(i + j));
}
}
// Check that indexing is still persistent.
EXPECT_EQ(Trans.getIndex(100), Trans.getIndex(100));
}
}