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llvm-6502/unittests/ADT/SmallVectorTest.cpp

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//===- llvm/unittest/ADT/SmallVectorTest.cpp ------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// SmallVector unit tests.
//
//===----------------------------------------------------------------------===//
#include "llvm/ADT/SmallVector.h"
#include "llvm/Support/Compiler.h"
#include "gtest/gtest.h"
#include <list>
#include <stdarg.h>
using namespace llvm;
namespace {
/// A helper class that counts the total number of constructor and
/// destructor calls.
class Constructable {
private:
static int numConstructorCalls;
static int numMoveConstructorCalls;
static int numCopyConstructorCalls;
static int numDestructorCalls;
static int numAssignmentCalls;
static int numMoveAssignmentCalls;
static int numCopyAssignmentCalls;
bool constructed;
int value;
public:
Constructable() : constructed(true), value(0) {
++numConstructorCalls;
}
Constructable(int val) : constructed(true), value(val) {
++numConstructorCalls;
}
Constructable(const Constructable & src) : constructed(true) {
value = src.value;
++numConstructorCalls;
++numCopyConstructorCalls;
}
Constructable(Constructable && src) : constructed(true) {
value = src.value;
++numConstructorCalls;
++numMoveConstructorCalls;
}
~Constructable() {
EXPECT_TRUE(constructed);
++numDestructorCalls;
constructed = false;
}
Constructable & operator=(const Constructable & src) {
EXPECT_TRUE(constructed);
value = src.value;
++numAssignmentCalls;
++numCopyAssignmentCalls;
return *this;
}
Constructable & operator=(Constructable && src) {
EXPECT_TRUE(constructed);
value = src.value;
++numAssignmentCalls;
++numMoveAssignmentCalls;
return *this;
}
int getValue() const {
return abs(value);
}
static void reset() {
numConstructorCalls = 0;
numMoveConstructorCalls = 0;
numCopyConstructorCalls = 0;
numDestructorCalls = 0;
numAssignmentCalls = 0;
numMoveAssignmentCalls = 0;
numCopyAssignmentCalls = 0;
}
static int getNumConstructorCalls() {
return numConstructorCalls;
}
static int getNumMoveConstructorCalls() {
return numMoveConstructorCalls;
}
static int getNumCopyConstructorCalls() {
return numCopyConstructorCalls;
}
static int getNumDestructorCalls() {
return numDestructorCalls;
}
static int getNumAssignmentCalls() {
return numAssignmentCalls;
}
static int getNumMoveAssignmentCalls() {
return numMoveAssignmentCalls;
}
static int getNumCopyAssignmentCalls() {
return numCopyAssignmentCalls;
}
friend bool operator==(const Constructable & c0, const Constructable & c1) {
return c0.getValue() == c1.getValue();
}
friend bool LLVM_ATTRIBUTE_UNUSED
operator!=(const Constructable & c0, const Constructable & c1) {
return c0.getValue() != c1.getValue();
}
};
int Constructable::numConstructorCalls;
int Constructable::numCopyConstructorCalls;
int Constructable::numMoveConstructorCalls;
int Constructable::numDestructorCalls;
int Constructable::numAssignmentCalls;
int Constructable::numCopyAssignmentCalls;
int Constructable::numMoveAssignmentCalls;
struct NonCopyable {
NonCopyable() {}
NonCopyable(NonCopyable &&) {}
NonCopyable &operator=(NonCopyable &&) { return *this; }
private:
NonCopyable(const NonCopyable &) LLVM_DELETED_FUNCTION;
NonCopyable &operator=(const NonCopyable &) LLVM_DELETED_FUNCTION;
};
LLVM_ATTRIBUTE_USED void CompileTest() {
SmallVector<NonCopyable, 0> V;
V.resize(42);
}
// Test fixture class
template <typename VectorT>
class SmallVectorTest : public testing::Test {
protected:
VectorT theVector;
VectorT otherVector;
void SetUp() {
Constructable::reset();
}
void assertEmpty(VectorT & v) {
// Size tests
EXPECT_EQ(0u, v.size());
EXPECT_TRUE(v.empty());
// Iterator tests
EXPECT_TRUE(v.begin() == v.end());
}
// Assert that theVector contains the specified values, in order.
void assertValuesInOrder(VectorT & v, size_t size, ...) {
EXPECT_EQ(size, v.size());
va_list ap;
va_start(ap, size);
for (size_t i = 0; i < size; ++i) {
int value = va_arg(ap, int);
EXPECT_EQ(value, v[i].getValue());
}
va_end(ap);
}
// Generate a sequence of values to initialize the vector.
void makeSequence(VectorT & v, int start, int end) {
for (int i = start; i <= end; ++i) {
v.push_back(Constructable(i));
}
}
};
typedef ::testing::Types<SmallVector<Constructable, 0>,
SmallVector<Constructable, 1>,
SmallVector<Constructable, 2>,
SmallVector<Constructable, 4>,
SmallVector<Constructable, 5>
> SmallVectorTestTypes;
TYPED_TEST_CASE(SmallVectorTest, SmallVectorTestTypes);
// New vector test.
TYPED_TEST(SmallVectorTest, EmptyVectorTest) {
SCOPED_TRACE("EmptyVectorTest");
this->assertEmpty(this->theVector);
EXPECT_TRUE(this->theVector.rbegin() == this->theVector.rend());
EXPECT_EQ(0, Constructable::getNumConstructorCalls());
EXPECT_EQ(0, Constructable::getNumDestructorCalls());
}
// Simple insertions and deletions.
TYPED_TEST(SmallVectorTest, PushPopTest) {
SCOPED_TRACE("PushPopTest");
// Track whether the vector will potentially have to grow.
bool RequiresGrowth = this->theVector.capacity() < 3;
// Push an element
this->theVector.push_back(Constructable(1));
// Size tests
this->assertValuesInOrder(this->theVector, 1u, 1);
EXPECT_FALSE(this->theVector.begin() == this->theVector.end());
EXPECT_FALSE(this->theVector.empty());
// Push another element
this->theVector.push_back(Constructable(2));
this->assertValuesInOrder(this->theVector, 2u, 1, 2);
// Insert at beginning
this->theVector.insert(this->theVector.begin(), this->theVector[1]);
this->assertValuesInOrder(this->theVector, 3u, 2, 1, 2);
// Pop one element
this->theVector.pop_back();
this->assertValuesInOrder(this->theVector, 2u, 2, 1);
// Pop remaining elements
this->theVector.pop_back();
this->theVector.pop_back();
this->assertEmpty(this->theVector);
// Check number of constructor calls. Should be 2 for each list element,
// one for the argument to push_back, one for the argument to insert,
// and one for the list element itself.
if (!RequiresGrowth) {
EXPECT_EQ(5, Constructable::getNumConstructorCalls());
EXPECT_EQ(5, Constructable::getNumDestructorCalls());
} else {
// If we had to grow the vector, these only have a lower bound, but should
// always be equal.
EXPECT_LE(5, Constructable::getNumConstructorCalls());
EXPECT_EQ(Constructable::getNumConstructorCalls(),
Constructable::getNumDestructorCalls());
}
}
// Clear test.
TYPED_TEST(SmallVectorTest, ClearTest) {
SCOPED_TRACE("ClearTest");
this->theVector.reserve(2);
this->makeSequence(this->theVector, 1, 2);
this->theVector.clear();
this->assertEmpty(this->theVector);
EXPECT_EQ(4, Constructable::getNumConstructorCalls());
EXPECT_EQ(4, Constructable::getNumDestructorCalls());
}
// Resize smaller test.
TYPED_TEST(SmallVectorTest, ResizeShrinkTest) {
SCOPED_TRACE("ResizeShrinkTest");
this->theVector.reserve(3);
this->makeSequence(this->theVector, 1, 3);
this->theVector.resize(1);
this->assertValuesInOrder(this->theVector, 1u, 1);
EXPECT_EQ(6, Constructable::getNumConstructorCalls());
EXPECT_EQ(5, Constructable::getNumDestructorCalls());
}
// Resize bigger test.
TYPED_TEST(SmallVectorTest, ResizeGrowTest) {
SCOPED_TRACE("ResizeGrowTest");
this->theVector.resize(2);
EXPECT_EQ(2, Constructable::getNumConstructorCalls());
EXPECT_EQ(0, Constructable::getNumDestructorCalls());
EXPECT_EQ(2u, this->theVector.size());
}
TYPED_TEST(SmallVectorTest, ResizeWithElementsTest) {
this->theVector.resize(2);
Constructable::reset();
this->theVector.resize(4);
size_t Ctors = Constructable::getNumConstructorCalls();
EXPECT_TRUE(Ctors == 2 || Ctors == 4);
size_t MoveCtors = Constructable::getNumMoveConstructorCalls();
EXPECT_TRUE(MoveCtors == 0 || MoveCtors == 2);
size_t Dtors = Constructable::getNumDestructorCalls();
EXPECT_TRUE(Dtors == 0 || Dtors == 2);
}
// Resize with fill value.
TYPED_TEST(SmallVectorTest, ResizeFillTest) {
SCOPED_TRACE("ResizeFillTest");
this->theVector.resize(3, Constructable(77));
this->assertValuesInOrder(this->theVector, 3u, 77, 77, 77);
}
// Overflow past fixed size.
TYPED_TEST(SmallVectorTest, OverflowTest) {
SCOPED_TRACE("OverflowTest");
// Push more elements than the fixed size.
this->makeSequence(this->theVector, 1, 10);
// Test size and values.
EXPECT_EQ(10u, this->theVector.size());
for (int i = 0; i < 10; ++i) {
EXPECT_EQ(i+1, this->theVector[i].getValue());
}
// Now resize back to fixed size.
this->theVector.resize(1);
this->assertValuesInOrder(this->theVector, 1u, 1);
}
// Iteration tests.
TYPED_TEST(SmallVectorTest, IterationTest) {
this->makeSequence(this->theVector, 1, 2);
// Forward Iteration
typename TypeParam::iterator it = this->theVector.begin();
EXPECT_TRUE(*it == this->theVector.front());
EXPECT_TRUE(*it == this->theVector[0]);
EXPECT_EQ(1, it->getValue());
++it;
EXPECT_TRUE(*it == this->theVector[1]);
EXPECT_TRUE(*it == this->theVector.back());
EXPECT_EQ(2, it->getValue());
++it;
EXPECT_TRUE(it == this->theVector.end());
--it;
EXPECT_TRUE(*it == this->theVector[1]);
EXPECT_EQ(2, it->getValue());
--it;
EXPECT_TRUE(*it == this->theVector[0]);
EXPECT_EQ(1, it->getValue());
// Reverse Iteration
typename TypeParam::reverse_iterator rit = this->theVector.rbegin();
EXPECT_TRUE(*rit == this->theVector[1]);
EXPECT_EQ(2, rit->getValue());
++rit;
EXPECT_TRUE(*rit == this->theVector[0]);
EXPECT_EQ(1, rit->getValue());
++rit;
EXPECT_TRUE(rit == this->theVector.rend());
--rit;
EXPECT_TRUE(*rit == this->theVector[0]);
EXPECT_EQ(1, rit->getValue());
--rit;
EXPECT_TRUE(*rit == this->theVector[1]);
EXPECT_EQ(2, rit->getValue());
}
// Swap test.
TYPED_TEST(SmallVectorTest, SwapTest) {
SCOPED_TRACE("SwapTest");
this->makeSequence(this->theVector, 1, 2);
std::swap(this->theVector, this->otherVector);
this->assertEmpty(this->theVector);
this->assertValuesInOrder(this->otherVector, 2u, 1, 2);
}
// Append test
TYPED_TEST(SmallVectorTest, AppendTest) {
SCOPED_TRACE("AppendTest");
this->makeSequence(this->otherVector, 2, 3);
this->theVector.push_back(Constructable(1));
this->theVector.append(this->otherVector.begin(), this->otherVector.end());
this->assertValuesInOrder(this->theVector, 3u, 1, 2, 3);
}
// Append repeated test
TYPED_TEST(SmallVectorTest, AppendRepeatedTest) {
SCOPED_TRACE("AppendRepeatedTest");
this->theVector.push_back(Constructable(1));
this->theVector.append(2, Constructable(77));
this->assertValuesInOrder(this->theVector, 3u, 1, 77, 77);
}
// Assign test
TYPED_TEST(SmallVectorTest, AssignTest) {
SCOPED_TRACE("AssignTest");
this->theVector.push_back(Constructable(1));
this->theVector.assign(2, Constructable(77));
this->assertValuesInOrder(this->theVector, 2u, 77, 77);
}
// Move-assign test
TYPED_TEST(SmallVectorTest, MoveAssignTest) {
SCOPED_TRACE("MoveAssignTest");
// Set up our vector with a single element, but enough capacity for 4.
this->theVector.reserve(4);
this->theVector.push_back(Constructable(1));
// Set up the other vector with 2 elements.
this->otherVector.push_back(Constructable(2));
this->otherVector.push_back(Constructable(3));
// Move-assign from the other vector.
this->theVector = std::move(this->otherVector);
// Make sure we have the right result.
this->assertValuesInOrder(this->theVector, 2u, 2, 3);
// Make sure the # of constructor/destructor calls line up. There
// are two live objects after clearing the other vector.
this->otherVector.clear();
EXPECT_EQ(Constructable::getNumConstructorCalls()-2,
Constructable::getNumDestructorCalls());
// There shouldn't be any live objects any more.
this->theVector.clear();
EXPECT_EQ(Constructable::getNumConstructorCalls(),
Constructable::getNumDestructorCalls());
}
// Erase a single element
TYPED_TEST(SmallVectorTest, EraseTest) {
SCOPED_TRACE("EraseTest");
this->makeSequence(this->theVector, 1, 3);
this->theVector.erase(this->theVector.begin());
this->assertValuesInOrder(this->theVector, 2u, 2, 3);
}
// Erase a range of elements
TYPED_TEST(SmallVectorTest, EraseRangeTest) {
SCOPED_TRACE("EraseRangeTest");
this->makeSequence(this->theVector, 1, 3);
this->theVector.erase(this->theVector.begin(), this->theVector.begin() + 2);
this->assertValuesInOrder(this->theVector, 1u, 3);
}
// Insert a single element.
TYPED_TEST(SmallVectorTest, InsertTest) {
SCOPED_TRACE("InsertTest");
this->makeSequence(this->theVector, 1, 3);
typename TypeParam::iterator I =
this->theVector.insert(this->theVector.begin() + 1, Constructable(77));
EXPECT_EQ(this->theVector.begin() + 1, I);
this->assertValuesInOrder(this->theVector, 4u, 1, 77, 2, 3);
}
// Insert a copy of a single element.
TYPED_TEST(SmallVectorTest, InsertCopy) {
SCOPED_TRACE("InsertTest");
this->makeSequence(this->theVector, 1, 3);
Constructable C(77);
typename TypeParam::iterator I =
this->theVector.insert(this->theVector.begin() + 1, C);
EXPECT_EQ(this->theVector.begin() + 1, I);
this->assertValuesInOrder(this->theVector, 4u, 1, 77, 2, 3);
}
// Insert repeated elements.
TYPED_TEST(SmallVectorTest, InsertRepeatedTest) {
SCOPED_TRACE("InsertRepeatedTest");
this->makeSequence(this->theVector, 1, 4);
Constructable::reset();
auto I =
this->theVector.insert(this->theVector.begin() + 1, 2, Constructable(16));
// Move construct the top element into newly allocated space, and optionally
// reallocate the whole buffer, move constructing into it.
// FIXME: This is inefficient, we shouldn't move things into newly allocated
// space, then move them up/around, there should only be 2 or 4 move
// constructions here.
EXPECT_TRUE(Constructable::getNumMoveConstructorCalls() == 2 ||
Constructable::getNumMoveConstructorCalls() == 6);
// Move assign the next two to shift them up and make a gap.
EXPECT_EQ(1, Constructable::getNumMoveAssignmentCalls());
// Copy construct the two new elements from the parameter.
EXPECT_EQ(2, Constructable::getNumCopyAssignmentCalls());
// All without any copy construction.
EXPECT_EQ(0, Constructable::getNumCopyConstructorCalls());
EXPECT_EQ(this->theVector.begin() + 1, I);
this->assertValuesInOrder(this->theVector, 6u, 1, 16, 16, 2, 3, 4);
}
TYPED_TEST(SmallVectorTest, InsertRepeatedAtEndTest) {
SCOPED_TRACE("InsertRepeatedTest");
this->makeSequence(this->theVector, 1, 4);
Constructable::reset();
auto I = this->theVector.insert(this->theVector.end(), 2, Constructable(16));
// Just copy construct them into newly allocated space
EXPECT_EQ(2, Constructable::getNumCopyConstructorCalls());
// Move everything across if reallocation is needed.
EXPECT_TRUE(Constructable::getNumMoveConstructorCalls() == 0 ||
Constructable::getNumMoveConstructorCalls() == 4);
// Without ever moving or copying anything else.
EXPECT_EQ(0, Constructable::getNumCopyAssignmentCalls());
EXPECT_EQ(0, Constructable::getNumMoveAssignmentCalls());
EXPECT_EQ(this->theVector.begin() + 4, I);
this->assertValuesInOrder(this->theVector, 6u, 1, 2, 3, 4, 16, 16);
}
TYPED_TEST(SmallVectorTest, InsertRepeatedEmptyTest) {
SCOPED_TRACE("InsertRepeatedTest");
this->makeSequence(this->theVector, 10, 15);
// Empty insert.
EXPECT_EQ(this->theVector.end(),
this->theVector.insert(this->theVector.end(),
0, Constructable(42)));
EXPECT_EQ(this->theVector.begin() + 1,
this->theVector.insert(this->theVector.begin() + 1,
0, Constructable(42)));
}
// Insert range.
TYPED_TEST(SmallVectorTest, InsertRangeTest) {
SCOPED_TRACE("InsertRangeTest");
Constructable Arr[3] =
{ Constructable(77), Constructable(77), Constructable(77) };
this->makeSequence(this->theVector, 1, 3);
Constructable::reset();
auto I = this->theVector.insert(this->theVector.begin() + 1, Arr, Arr + 3);
// Move construct the top 3 elements into newly allocated space.
// Possibly move the whole sequence into new space first.
// FIXME: This is inefficient, we shouldn't move things into newly allocated
// space, then move them up/around, there should only be 2 or 3 move
// constructions here.
EXPECT_TRUE(Constructable::getNumMoveConstructorCalls() == 2 ||
Constructable::getNumMoveConstructorCalls() == 5);
// Copy assign the lower 2 new elements into existing space.
EXPECT_EQ(2, Constructable::getNumCopyAssignmentCalls());
// Copy construct the third element into newly allocated space.
EXPECT_EQ(1, Constructable::getNumCopyConstructorCalls());
EXPECT_EQ(this->theVector.begin() + 1, I);
this->assertValuesInOrder(this->theVector, 6u, 1, 77, 77, 77, 2, 3);
}
TYPED_TEST(SmallVectorTest, InsertRangeAtEndTest) {
SCOPED_TRACE("InsertRangeTest");
Constructable Arr[3] =
{ Constructable(77), Constructable(77), Constructable(77) };
this->makeSequence(this->theVector, 1, 3);
// Insert at end.
Constructable::reset();
auto I = this->theVector.insert(this->theVector.end(), Arr, Arr+3);
// Copy construct the 3 elements into new space at the top.
EXPECT_EQ(3, Constructable::getNumCopyConstructorCalls());
// Don't copy/move anything else.
EXPECT_EQ(0, Constructable::getNumCopyAssignmentCalls());
// Reallocation might occur, causing all elements to be moved into the new
// buffer.
EXPECT_TRUE(Constructable::getNumMoveConstructorCalls() == 0 ||
Constructable::getNumMoveConstructorCalls() == 3);
EXPECT_EQ(0, Constructable::getNumMoveAssignmentCalls());
EXPECT_EQ(this->theVector.begin() + 3, I);
this->assertValuesInOrder(this->theVector, 6u,
1, 2, 3, 77, 77, 77);
}
TYPED_TEST(SmallVectorTest, InsertEmptyRangeTest) {
SCOPED_TRACE("InsertRangeTest");
this->makeSequence(this->theVector, 1, 3);
// Empty insert.
EXPECT_EQ(this->theVector.end(),
this->theVector.insert(this->theVector.end(),
this->theVector.begin(),
this->theVector.begin()));
EXPECT_EQ(this->theVector.begin() + 1,
this->theVector.insert(this->theVector.begin() + 1,
this->theVector.begin(),
this->theVector.begin()));
}
// Comparison tests.
TYPED_TEST(SmallVectorTest, ComparisonTest) {
SCOPED_TRACE("ComparisonTest");
this->makeSequence(this->theVector, 1, 3);
this->makeSequence(this->otherVector, 1, 3);
EXPECT_TRUE(this->theVector == this->otherVector);
EXPECT_FALSE(this->theVector != this->otherVector);
this->otherVector.clear();
this->makeSequence(this->otherVector, 2, 4);
EXPECT_FALSE(this->theVector == this->otherVector);
EXPECT_TRUE(this->theVector != this->otherVector);
}
// Constant vector tests.
TYPED_TEST(SmallVectorTest, ConstVectorTest) {
const TypeParam constVector;
EXPECT_EQ(0u, constVector.size());
EXPECT_TRUE(constVector.empty());
EXPECT_TRUE(constVector.begin() == constVector.end());
}
// Direct array access.
TYPED_TEST(SmallVectorTest, DirectVectorTest) {
EXPECT_EQ(0u, this->theVector.size());
this->theVector.reserve(4);
EXPECT_LE(4u, this->theVector.capacity());
EXPECT_EQ(0, Constructable::getNumConstructorCalls());
this->theVector.push_back(1);
this->theVector.push_back(2);
this->theVector.push_back(3);
this->theVector.push_back(4);
EXPECT_EQ(4u, this->theVector.size());
EXPECT_EQ(8, Constructable::getNumConstructorCalls());
EXPECT_EQ(1, this->theVector[0].getValue());
EXPECT_EQ(2, this->theVector[1].getValue());
EXPECT_EQ(3, this->theVector[2].getValue());
EXPECT_EQ(4, this->theVector[3].getValue());
}
TYPED_TEST(SmallVectorTest, IteratorTest) {
std::list<int> L;
this->theVector.insert(this->theVector.end(), L.begin(), L.end());
}
struct notassignable {
int &x;
notassignable(int &x) : x(x) {}
};
TEST(SmallVectorCustomTest, NoAssignTest) {
int x = 0;
SmallVector<notassignable, 2> vec;
vec.push_back(notassignable(x));
x = 42;
EXPECT_EQ(42, vec.pop_back_val().x);
}
struct MovedFrom {
bool hasValue;
MovedFrom() : hasValue(true) {
}
MovedFrom(MovedFrom&& m) : hasValue(m.hasValue) {
m.hasValue = false;
}
MovedFrom &operator=(MovedFrom&& m) {
hasValue = m.hasValue;
m.hasValue = false;
return *this;
}
};
TEST(SmallVectorTest, MidInsert) {
SmallVector<MovedFrom, 3> v;
v.push_back(MovedFrom());
v.insert(v.begin(), MovedFrom());
for (MovedFrom &m : v)
EXPECT_TRUE(m.hasValue);
}
}