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llvm-6502/unittests/ADT/TinyPtrVectorTest.cpp
Chandler Carruth 147d9e0511 Add range erase, element insert, and range insert methods to 
TinyPtrVector. With these, it is sufficiently functional for my more
normal / pedestrian uses.

I've not included some r-value reference stuff here because the value
type for a TinyPtrVector is, necessarily, just a pointer.

I've added tests that cover the basic behavior of these routines, but
they aren't as comprehensive as I'd like. In particular, they don't
really test the iterator semantics as thoroughly as they should. Maybe
some brave soul will feel enterprising and flesh them out. ;]

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@161104 91177308-0d34-0410-b5e6-96231b3b80d8
2012-08-01 08:40:48 +00:00

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//===- 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 "gtest/gtest.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/TinyPtrVector.h"
#include "llvm/Support/type_traits.h"
#include <algorithm>
#include <list>
#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 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], *llvm::next(V.begin(), i));
}
EXPECT_EQ(V.end(), llvm::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));
#if LLVM_USE_RVALUE_REFERENCES
TypeParam Move(std::move(Copy2));
this->expectValues(Move, this->testArray(42));
this->expectValues(Copy2, this->testArray(0));
#endif
}
TYPED_TEST(TinyPtrVectorTest, CopyAndMoveTest) {
this->V = this->V2;
this->expectValues(this->V, this->testArray(0));
this->expectValues(this->V2, this->testArray(0));
#if LLVM_USE_RVALUE_REFERENCES
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
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));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
}
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(llvm::next(this->V.begin(), 1));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 1));
this->expectValues(this->V, this->testArray(40));
this->V.erase(llvm::next(this->V.begin(), 2));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 2));
this->expectValues(this->V, this->testArray(39));
this->V.erase(llvm::next(this->V.begin(), 5));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 5));
this->expectValues(this->V, this->testArray(38));
this->V.erase(llvm::next(this->V.begin(), 13));
this->TestPtrs.erase(llvm::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(), llvm::next(this->V.begin(), 1));
this->TestPtrs.erase(this->TestPtrs.begin(),
llvm::next(this->TestPtrs.begin(), 1));
this->expectValues(this->V, this->testArray(41));
this->V.erase(llvm::next(this->V.begin(), 1), llvm::next(this->V.begin(), 2));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 1),
llvm::next(this->TestPtrs.begin(), 2));
this->expectValues(this->V, this->testArray(40));
this->V.erase(llvm::next(this->V.begin(), 2), llvm::next(this->V.begin(), 4));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 2),
llvm::next(this->TestPtrs.begin(), 4));
this->expectValues(this->V, this->testArray(38));
this->V.erase(llvm::next(this->V.begin(), 5), llvm::next(this->V.begin(), 10));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 5),
llvm::next(this->TestPtrs.begin(), 10));
this->expectValues(this->V, this->testArray(33));
this->V.erase(llvm::next(this->V.begin(), 13), llvm::next(this->V.begin(), 26));
this->TestPtrs.erase(llvm::next(this->TestPtrs.begin(), 13),
llvm::next(this->TestPtrs.begin(), 26));
this->expectValues(this->V, this->testArray(20));
this->V.erase(llvm::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(llvm::next(this->V.begin(), 3), this->TestPtrs[43]);
this->TestPtrs.insert(llvm::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(),
llvm::next(this->TestPtrs.begin()));
this->expectValues(this->V, this->testArray(1));
this->V.clear();
this->V.insert(this->V.end(), this->TestPtrs.begin(),
llvm::next(this->TestPtrs.begin(), 2));
this->expectValues(this->V, this->testArray(2));
this->V.clear();
this->V.insert(this->V.end(), this->TestPtrs.begin(),
llvm::next(this->TestPtrs.begin(), 42));
this->expectValues(this->V, this->testArray(42));
this->V.clear();
this->V.insert(this->V.end(),
llvm::next(this->TestPtrs.begin(), 5),
llvm::next(this->TestPtrs.begin(), 13));
this->V.insert(this->V.begin(),
llvm::next(this->TestPtrs.begin(), 0),
llvm::next(this->TestPtrs.begin(), 3));
this->V.insert(llvm::next(this->V.begin(), 2),
llvm::next(this->TestPtrs.begin(), 2),
llvm::next(this->TestPtrs.begin(), 4));
this->V.erase(llvm::next(this->V.begin(), 4));
this->V.insert(llvm::next(this->V.begin(), 4),
llvm::next(this->TestPtrs.begin(), 4),
llvm::next(this->TestPtrs.begin(), 5));
this->expectValues(this->V, this->testArray(13));
}
}
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