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ef89dbf50d
Add explicit conversions between forward and reverse ilist iterators. These follow the conversion conventions of std::reverse_iterator, which are off-by-one: the newly-constructed "reverse" iterator dereferences to the previous node of the one sent in. This has the benefit of converting reverse ranges in place: - If [I, E) is a valid range, - then [reverse(E), reverse(I)) gives the same range in reverse order. ilist_iterator::getReverse() is unchanged: it returns a reverse iterator to the *same* node. llvm-svn: 294349
198 lines
7.3 KiB
C++
198 lines
7.3 KiB
C++
//===- MachineInstrBundleIteratorTest.cpp ---------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/ilist_node.h"
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#include "llvm/CodeGen/MachineInstrBundleIterator.h"
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#include "gtest/gtest.h"
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using namespace llvm;
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namespace {
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struct MyBundledInstr
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: public ilist_node<MyBundledInstr, ilist_sentinel_tracking<true>> {
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bool isBundledWithPred() const { return true; }
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bool isBundledWithSucc() const { return true; }
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};
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typedef MachineInstrBundleIterator<MyBundledInstr> bundled_iterator;
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typedef MachineInstrBundleIterator<const MyBundledInstr> const_bundled_iterator;
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typedef MachineInstrBundleIterator<MyBundledInstr, true>
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reverse_bundled_iterator;
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typedef MachineInstrBundleIterator<const MyBundledInstr, true>
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const_reverse_bundled_iterator;
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#ifdef GTEST_HAS_DEATH_TEST
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#ifndef NDEBUG
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TEST(MachineInstrBundleIteratorTest, CheckForBundles) {
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MyBundledInstr MBI;
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auto I = MBI.getIterator();
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auto RI = I.getReverse();
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// Confirm that MBI is always considered bundled.
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EXPECT_TRUE(MBI.isBundledWithPred());
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EXPECT_TRUE(MBI.isBundledWithSucc());
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// Confirm that iterators check in their constructor for bundled iterators.
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EXPECT_DEATH((void)static_cast<bundled_iterator>(I),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<bundled_iterator>(MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<bundled_iterator>(&MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_bundled_iterator>(I),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_bundled_iterator>(MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_bundled_iterator>(&MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(RI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(&MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(RI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(MBI),
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"not legal to initialize");
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EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(&MBI),
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"not legal to initialize");
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}
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#endif
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#endif
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TEST(MachineInstrBundleIteratorTest, CompareToBundledMI) {
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MyBundledInstr MBI;
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const MyBundledInstr &CMBI = MBI;
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bundled_iterator I;
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const_bundled_iterator CI;
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// Confirm that MBI is always considered bundled.
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EXPECT_TRUE(MBI.isBundledWithPred());
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EXPECT_TRUE(MBI.isBundledWithSucc());
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// These invocations will crash when !NDEBUG if a conversion is taking place.
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// These checks confirm that comparison operators don't use any conversion
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// operators.
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ASSERT_FALSE(MBI == I);
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ASSERT_FALSE(&MBI == I);
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ASSERT_FALSE(CMBI == I);
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ASSERT_FALSE(&CMBI == I);
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ASSERT_FALSE(I == MBI);
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ASSERT_FALSE(I == &MBI);
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ASSERT_FALSE(I == CMBI);
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ASSERT_FALSE(I == &CMBI);
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ASSERT_FALSE(MBI == CI);
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ASSERT_FALSE(&MBI == CI);
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ASSERT_FALSE(CMBI == CI);
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ASSERT_FALSE(&CMBI == CI);
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ASSERT_FALSE(CI == MBI);
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ASSERT_FALSE(CI == &MBI);
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ASSERT_FALSE(CI == CMBI);
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ASSERT_FALSE(CI == &CMBI);
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ASSERT_FALSE(MBI.getIterator() == I);
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ASSERT_FALSE(CMBI.getIterator() == I);
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ASSERT_FALSE(I == MBI.getIterator());
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ASSERT_FALSE(I == CMBI.getIterator());
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ASSERT_FALSE(MBI.getIterator() == CI);
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ASSERT_FALSE(CMBI.getIterator() == CI);
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ASSERT_FALSE(CI == MBI.getIterator());
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ASSERT_FALSE(CI == CMBI.getIterator());
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ASSERT_TRUE(MBI != I);
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ASSERT_TRUE(&MBI != I);
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ASSERT_TRUE(CMBI != I);
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ASSERT_TRUE(&CMBI != I);
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ASSERT_TRUE(I != MBI);
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ASSERT_TRUE(I != &MBI);
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ASSERT_TRUE(I != CMBI);
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ASSERT_TRUE(I != &CMBI);
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ASSERT_TRUE(MBI != CI);
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ASSERT_TRUE(&MBI != CI);
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ASSERT_TRUE(CMBI != CI);
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ASSERT_TRUE(&CMBI != CI);
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ASSERT_TRUE(CI != MBI);
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ASSERT_TRUE(CI != &MBI);
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ASSERT_TRUE(CI != CMBI);
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ASSERT_TRUE(CI != &CMBI);
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ASSERT_TRUE(MBI.getIterator() != I);
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ASSERT_TRUE(CMBI.getIterator() != I);
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ASSERT_TRUE(I != MBI.getIterator());
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ASSERT_TRUE(I != CMBI.getIterator());
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ASSERT_TRUE(MBI.getIterator() != CI);
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ASSERT_TRUE(CMBI.getIterator() != CI);
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ASSERT_TRUE(CI != MBI.getIterator());
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ASSERT_TRUE(CI != CMBI.getIterator());
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}
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struct MyUnbundledInstr
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: ilist_node<MyUnbundledInstr, ilist_sentinel_tracking<true>> {
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bool isBundledWithPred() const { return false; }
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bool isBundledWithSucc() const { return false; }
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};
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typedef MachineInstrBundleIterator<MyUnbundledInstr> unbundled_iterator;
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typedef MachineInstrBundleIterator<const MyUnbundledInstr>
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const_unbundled_iterator;
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typedef MachineInstrBundleIterator<MyUnbundledInstr, true>
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reverse_unbundled_iterator;
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typedef MachineInstrBundleIterator<const MyUnbundledInstr, true>
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const_reverse_unbundled_iterator;
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TEST(MachineInstrBundleIteratorTest, ReverseConstructor) {
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simple_ilist<MyUnbundledInstr, ilist_sentinel_tracking<true>> L;
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const auto &CL = L;
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MyUnbundledInstr A, B;
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L.insert(L.end(), A);
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L.insert(L.end(), B);
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// Save typing.
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typedef MachineInstrBundleIterator<MyUnbundledInstr> iterator;
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typedef MachineInstrBundleIterator<MyUnbundledInstr, true> reverse_iterator;
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typedef MachineInstrBundleIterator<const MyUnbundledInstr> const_iterator;
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typedef MachineInstrBundleIterator<const MyUnbundledInstr, true>
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const_reverse_iterator;
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// Convert to bundle iterators.
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auto begin = [&]() -> iterator { return L.begin(); };
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auto end = [&]() -> iterator { return L.end(); };
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auto rbegin = [&]() -> reverse_iterator { return L.rbegin(); };
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auto rend = [&]() -> reverse_iterator { return L.rend(); };
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auto cbegin = [&]() -> const_iterator { return CL.begin(); };
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auto cend = [&]() -> const_iterator { return CL.end(); };
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auto crbegin = [&]() -> const_reverse_iterator { return CL.rbegin(); };
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auto crend = [&]() -> const_reverse_iterator { return CL.rend(); };
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// Check conversion values.
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EXPECT_EQ(begin(), iterator(rend()));
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EXPECT_EQ(++begin(), iterator(++rbegin()));
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EXPECT_EQ(end(), iterator(rbegin()));
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EXPECT_EQ(rbegin(), reverse_iterator(end()));
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EXPECT_EQ(++rbegin(), reverse_iterator(++begin()));
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EXPECT_EQ(rend(), reverse_iterator(begin()));
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// Check const iterator constructors.
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EXPECT_EQ(cbegin(), const_iterator(rend()));
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EXPECT_EQ(cbegin(), const_iterator(crend()));
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EXPECT_EQ(crbegin(), const_reverse_iterator(end()));
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EXPECT_EQ(crbegin(), const_reverse_iterator(cend()));
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// Confirm lack of implicit conversions.
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static_assert(!std::is_convertible<iterator, reverse_iterator>::value,
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"unexpected implicit conversion");
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static_assert(!std::is_convertible<reverse_iterator, iterator>::value,
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"unexpected implicit conversion");
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static_assert(
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!std::is_convertible<const_iterator, const_reverse_iterator>::value,
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"unexpected implicit conversion");
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static_assert(
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!std::is_convertible<const_reverse_iterator, const_iterator>::value,
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"unexpected implicit conversion");
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}
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} // end namespace
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