//===- llvm/unittest/ADT/TinyPtrVectorTest.cpp ----------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // TinyPtrVector unit tests. // //===----------------------------------------------------------------------===// #include "llvm/ADT/TinyPtrVector.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/STLExtras.h" #include "llvm/Support/type_traits.h" #include "gtest/gtest.h" #include <algorithm> #include <vector> using namespace llvm; namespace { // The world's worst RNG, but it is deterministic and makes it easy to get // *some* shuffling of elements. static ptrdiff_t test_shuffle_rng(ptrdiff_t i) { return (i + i * 33) % i; } static ptrdiff_t (*test_shuffle_rng_p)(ptrdiff_t) = &test_shuffle_rng; template <typename VectorT> class TinyPtrVectorTest : public testing::Test { protected: typedef typename VectorT::value_type PtrT; typedef typename std::remove_pointer<PtrT>::type ValueT; VectorT V; VectorT V2; ValueT TestValues[1024]; std::vector<PtrT> TestPtrs; TinyPtrVectorTest() { for (size_t i = 0, e = array_lengthof(TestValues); i != e; ++i) TestPtrs.push_back(&TestValues[i]); std::random_shuffle(TestPtrs.begin(), TestPtrs.end(), test_shuffle_rng_p); } ArrayRef<PtrT> testArray(size_t N) { return makeArrayRef(&TestPtrs[0], N); } void appendValues(VectorT &V, ArrayRef<PtrT> Values) { for (size_t i = 0, e = Values.size(); i != e; ++i) V.push_back(Values[i]); } void setVectors(ArrayRef<PtrT> Values1, ArrayRef<PtrT> Values2) { V.clear(); appendValues(V, Values1); V2.clear(); appendValues(V2, Values2); } void expectValues(const VectorT &V, ArrayRef<PtrT> Values) { EXPECT_EQ(Values.empty(), V.empty()); EXPECT_EQ(Values.size(), V.size()); for (size_t i = 0, e = Values.size(); i != e; ++i) { EXPECT_EQ(Values[i], V[i]); EXPECT_EQ(Values[i], *std::next(V.begin(), i)); } EXPECT_EQ(V.end(), std::next(V.begin(), Values.size())); } }; typedef ::testing::Types<TinyPtrVector<int*>, TinyPtrVector<double*> > TinyPtrVectorTestTypes; TYPED_TEST_CASE(TinyPtrVectorTest, TinyPtrVectorTestTypes); TYPED_TEST(TinyPtrVectorTest, EmptyTest) { this->expectValues(this->V, this->testArray(0)); } TYPED_TEST(TinyPtrVectorTest, PushPopBack) { this->V.push_back(this->TestPtrs[0]); this->expectValues(this->V, this->testArray(1)); this->V.push_back(this->TestPtrs[1]); this->expectValues(this->V, this->testArray(2)); this->V.push_back(this->TestPtrs[2]); this->expectValues(this->V, this->testArray(3)); this->V.push_back(this->TestPtrs[3]); this->expectValues(this->V, this->testArray(4)); this->V.push_back(this->TestPtrs[4]); this->expectValues(this->V, this->testArray(5)); // Pop and clobber a few values to keep things interesting. this->V.pop_back(); this->expectValues(this->V, this->testArray(4)); this->V.pop_back(); this->expectValues(this->V, this->testArray(3)); this->TestPtrs[3] = &this->TestValues[42]; this->TestPtrs[4] = &this->TestValues[43]; this->V.push_back(this->TestPtrs[3]); this->expectValues(this->V, this->testArray(4)); this->V.push_back(this->TestPtrs[4]); this->expectValues(this->V, this->testArray(5)); this->V.pop_back(); this->expectValues(this->V, this->testArray(4)); this->V.pop_back(); this->expectValues(this->V, this->testArray(3)); this->V.pop_back(); this->expectValues(this->V, this->testArray(2)); this->V.pop_back(); this->expectValues(this->V, this->testArray(1)); this->V.pop_back(); this->expectValues(this->V, this->testArray(0)); this->appendValues(this->V, this->testArray(42)); this->expectValues(this->V, this->testArray(42)); } TYPED_TEST(TinyPtrVectorTest, ClearTest) { this->expectValues(this->V, this->testArray(0)); this->V.clear(); this->expectValues(this->V, this->testArray(0)); this->appendValues(this->V, this->testArray(1)); this->expectValues(this->V, this->testArray(1)); this->V.clear(); this->expectValues(this->V, this->testArray(0)); this->appendValues(this->V, this->testArray(42)); this->expectValues(this->V, this->testArray(42)); this->V.clear(); this->expectValues(this->V, this->testArray(0)); } TYPED_TEST(TinyPtrVectorTest, CopyAndMoveCtorTest) { this->appendValues(this->V, this->testArray(42)); TypeParam Copy(this->V); this->expectValues(Copy, this->testArray(42)); // This is a separate copy, and so it shouldn't destroy the original. Copy.clear(); this->expectValues(Copy, this->testArray(0)); this->expectValues(this->V, this->testArray(42)); TypeParam Copy2(this->V2); this->appendValues(Copy2, this->testArray(42)); this->expectValues(Copy2, this->testArray(42)); this->expectValues(this->V2, this->testArray(0)); TypeParam Move(std::move(Copy2)); this->expectValues(Move, this->testArray(42)); this->expectValues(Copy2, this->testArray(0)); } TYPED_TEST(TinyPtrVectorTest, CopyAndMoveTest) { this->V = this->V2; this->expectValues(this->V, this->testArray(0)); this->expectValues(this->V2, this->testArray(0)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(0)); this->setVectors(this->testArray(1), this->testArray(0)); this->V = this->V2; this->expectValues(this->V, this->testArray(0)); this->expectValues(this->V2, this->testArray(0)); this->setVectors(this->testArray(1), this->testArray(0)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(0)); this->setVectors(this->testArray(2), this->testArray(0)); this->V = this->V2; this->expectValues(this->V, this->testArray(0)); this->expectValues(this->V2, this->testArray(0)); this->setVectors(this->testArray(2), this->testArray(0)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(0)); this->setVectors(this->testArray(42), this->testArray(0)); this->V = this->V2; this->expectValues(this->V, this->testArray(0)); this->expectValues(this->V2, this->testArray(0)); this->setVectors(this->testArray(42), this->testArray(0)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(0)); this->setVectors(this->testArray(0), this->testArray(1)); this->V = this->V2; this->expectValues(this->V, this->testArray(1)); this->expectValues(this->V2, this->testArray(1)); this->setVectors(this->testArray(0), this->testArray(1)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(1)); this->setVectors(this->testArray(0), this->testArray(2)); this->V = this->V2; this->expectValues(this->V, this->testArray(2)); this->expectValues(this->V2, this->testArray(2)); this->setVectors(this->testArray(0), this->testArray(2)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(2)); this->setVectors(this->testArray(0), this->testArray(42)); this->V = this->V2; this->expectValues(this->V, this->testArray(42)); this->expectValues(this->V2, this->testArray(42)); this->setVectors(this->testArray(0), this->testArray(42)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(42)); this->setVectors(this->testArray(1), this->testArray(1)); this->V = this->V2; this->expectValues(this->V, this->testArray(1)); this->expectValues(this->V2, this->testArray(1)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(1)); this->setVectors(this->testArray(1), this->testArray(2)); this->V = this->V2; this->expectValues(this->V, this->testArray(2)); this->expectValues(this->V2, this->testArray(2)); this->setVectors(this->testArray(1), this->testArray(2)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(2)); this->setVectors(this->testArray(1), this->testArray(42)); this->V = this->V2; this->expectValues(this->V, this->testArray(42)); this->expectValues(this->V2, this->testArray(42)); this->setVectors(this->testArray(1), this->testArray(42)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(42)); this->setVectors(this->testArray(2), this->testArray(1)); this->V = this->V2; this->expectValues(this->V, this->testArray(1)); this->expectValues(this->V2, this->testArray(1)); this->setVectors(this->testArray(2), this->testArray(1)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(1)); this->setVectors(this->testArray(2), this->testArray(2)); this->V = this->V2; this->expectValues(this->V, this->testArray(2)); this->expectValues(this->V2, this->testArray(2)); this->setVectors(this->testArray(2), this->testArray(2)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(2)); this->setVectors(this->testArray(2), this->testArray(42)); this->V = this->V2; this->expectValues(this->V, this->testArray(42)); this->expectValues(this->V2, this->testArray(42)); this->setVectors(this->testArray(2), this->testArray(42)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(42)); this->setVectors(this->testArray(42), this->testArray(1)); this->V = this->V2; this->expectValues(this->V, this->testArray(1)); this->expectValues(this->V2, this->testArray(1)); this->setVectors(this->testArray(42), this->testArray(1)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(1)); this->setVectors(this->testArray(42), this->testArray(2)); this->V = this->V2; this->expectValues(this->V, this->testArray(2)); this->expectValues(this->V2, this->testArray(2)); this->setVectors(this->testArray(42), this->testArray(2)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(2)); this->setVectors(this->testArray(42), this->testArray(42)); this->V = this->V2; this->expectValues(this->V, this->testArray(42)); this->expectValues(this->V2, this->testArray(42)); this->setVectors(this->testArray(42), this->testArray(42)); this->V = std::move(this->V2); this->expectValues(this->V, this->testArray(42)); } TYPED_TEST(TinyPtrVectorTest, EraseTest) { this->appendValues(this->V, this->testArray(1)); this->expectValues(this->V, this->testArray(1)); this->V.erase(this->V.begin()); this->expectValues(this->V, this->testArray(0)); this->appendValues(this->V, this->testArray(42)); this->expectValues(this->V, this->testArray(42)); this->V.erase(this->V.begin()); this->TestPtrs.erase(this->TestPtrs.begin()); this->expectValues(this->V, this->testArray(41)); this->V.erase(std::next(this->V.begin(), 1)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 1)); this->expectValues(this->V, this->testArray(40)); this->V.erase(std::next(this->V.begin(), 2)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 2)); this->expectValues(this->V, this->testArray(39)); this->V.erase(std::next(this->V.begin(), 5)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 5)); this->expectValues(this->V, this->testArray(38)); this->V.erase(std::next(this->V.begin(), 13)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 13)); this->expectValues(this->V, this->testArray(37)); typename TypeParam::iterator I = this->V.begin(); do { I = this->V.erase(I); } while (I != this->V.end()); this->expectValues(this->V, this->testArray(0)); } TYPED_TEST(TinyPtrVectorTest, EraseRangeTest) { this->appendValues(this->V, this->testArray(1)); this->expectValues(this->V, this->testArray(1)); this->V.erase(this->V.begin(), this->V.begin()); this->expectValues(this->V, this->testArray(1)); this->V.erase(this->V.end(), this->V.end()); this->expectValues(this->V, this->testArray(1)); this->V.erase(this->V.begin(), this->V.end()); this->expectValues(this->V, this->testArray(0)); this->appendValues(this->V, this->testArray(42)); this->expectValues(this->V, this->testArray(42)); this->V.erase(this->V.begin(), std::next(this->V.begin(), 1)); this->TestPtrs.erase(this->TestPtrs.begin(), std::next(this->TestPtrs.begin(), 1)); this->expectValues(this->V, this->testArray(41)); this->V.erase(std::next(this->V.begin(), 1), std::next(this->V.begin(), 2)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 1), std::next(this->TestPtrs.begin(), 2)); this->expectValues(this->V, this->testArray(40)); this->V.erase(std::next(this->V.begin(), 2), std::next(this->V.begin(), 4)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 2), std::next(this->TestPtrs.begin(), 4)); this->expectValues(this->V, this->testArray(38)); this->V.erase(std::next(this->V.begin(), 5), std::next(this->V.begin(), 10)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 5), std::next(this->TestPtrs.begin(), 10)); this->expectValues(this->V, this->testArray(33)); this->V.erase(std::next(this->V.begin(), 13), std::next(this->V.begin(), 26)); this->TestPtrs.erase(std::next(this->TestPtrs.begin(), 13), std::next(this->TestPtrs.begin(), 26)); this->expectValues(this->V, this->testArray(20)); this->V.erase(std::next(this->V.begin(), 7), this->V.end()); this->expectValues(this->V, this->testArray(7)); this->V.erase(this->V.begin(), this->V.end()); this->expectValues(this->V, this->testArray(0)); } TYPED_TEST(TinyPtrVectorTest, Insert) { this->V.insert(this->V.end(), this->TestPtrs[0]); this->expectValues(this->V, this->testArray(1)); this->V.clear(); this->appendValues(this->V, this->testArray(4)); this->expectValues(this->V, this->testArray(4)); this->V.insert(this->V.end(), this->TestPtrs[4]); this->expectValues(this->V, this->testArray(5)); this->V.insert(this->V.begin(), this->TestPtrs[42]); this->TestPtrs.insert(this->TestPtrs.begin(), this->TestPtrs[42]); this->expectValues(this->V, this->testArray(6)); this->V.insert(std::next(this->V.begin(), 3), this->TestPtrs[43]); this->TestPtrs.insert(std::next(this->TestPtrs.begin(), 3), this->TestPtrs[43]); this->expectValues(this->V, this->testArray(7)); } TYPED_TEST(TinyPtrVectorTest, InsertRange) { this->V.insert(this->V.end(), this->TestPtrs.begin(), this->TestPtrs.begin()); this->expectValues(this->V, this->testArray(0)); this->V.insert(this->V.begin(), this->TestPtrs.begin(), this->TestPtrs.begin()); this->expectValues(this->V, this->testArray(0)); this->V.insert(this->V.end(), this->TestPtrs.end(), this->TestPtrs.end()); this->expectValues(this->V, this->testArray(0)); this->V.insert(this->V.end(), this->TestPtrs.begin(), std::next(this->TestPtrs.begin())); this->expectValues(this->V, this->testArray(1)); this->V.clear(); this->V.insert(this->V.end(), this->TestPtrs.begin(), std::next(this->TestPtrs.begin(), 2)); this->expectValues(this->V, this->testArray(2)); this->V.clear(); this->V.insert(this->V.end(), this->TestPtrs.begin(), std::next(this->TestPtrs.begin(), 42)); this->expectValues(this->V, this->testArray(42)); this->V.clear(); this->V.insert(this->V.end(), std::next(this->TestPtrs.begin(), 5), std::next(this->TestPtrs.begin(), 13)); this->V.insert(this->V.begin(), std::next(this->TestPtrs.begin(), 0), std::next(this->TestPtrs.begin(), 3)); this->V.insert(std::next(this->V.begin(), 2), std::next(this->TestPtrs.begin(), 2), std::next(this->TestPtrs.begin(), 4)); this->V.erase(std::next(this->V.begin(), 4)); this->V.insert(std::next(this->V.begin(), 4), std::next(this->TestPtrs.begin(), 4), std::next(this->TestPtrs.begin(), 5)); this->expectValues(this->V, this->testArray(13)); } } TEST(TinyPtrVectorTest, SingleEltCtorTest) { int v = 55; TinyPtrVector<int *> V(&v); EXPECT_TRUE(V.size() == 1); EXPECT_FALSE(V.empty()); EXPECT_TRUE(V.front() == &v); } TEST(TinyPtrVectorTest, ArrayRefCtorTest) { int data_array[128]; std::vector<int *> data; for (unsigned i = 0, e = 128; i != e; ++i) { data_array[i] = 324 - int(i); data.push_back(&data_array[i]); } TinyPtrVector<int *> V(data); EXPECT_TRUE(V.size() == 128); EXPECT_FALSE(V.empty()); for (unsigned i = 0, e = 128; i != e; ++i) { EXPECT_TRUE(V[i] == data[i]); } } TEST(TinyPtrVectorTest, MutableArrayRefTest) { int data_array[128]; std::vector<int *> data; for (unsigned i = 0, e = 128; i != e; ++i) { data_array[i] = 324 - int(i); data.push_back(&data_array[i]); } TinyPtrVector<int *> V(data); EXPECT_TRUE(V.size() == 128); EXPECT_FALSE(V.empty()); MutableArrayRef<int *> mut_array = V; for (unsigned i = 0, e = 128; i != e; ++i) { EXPECT_TRUE(mut_array[i] == data[i]); mut_array[i] = 324 + mut_array[i]; EXPECT_TRUE(mut_array[i] == (324 + data[i])); } }