llvm/unittests/CodeGen/MachineInstrBundleIteratorTest.cpp - toolchain/llvm-project - Gitiles

 //===- MachineInstrBundleIteratorTest.cpp ---------------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/ilist_node.h"
 #include "llvm/CodeGen/MachineInstrBundleIterator.h"
 #include "gtest/gtest.h"

 using namespace llvm;

 namespace {

 struct MyBundledInstr
     : public ilist_node<MyBundledInstr, ilist_sentinel_tracking<true>> {
   bool isBundledWithPred() const { return true; }
   bool isBundledWithSucc() const { return true; }
 };
 typedef MachineInstrBundleIterator<MyBundledInstr> bundled_iterator;
 typedef MachineInstrBundleIterator<const MyBundledInstr> const_bundled_iterator;
 typedef MachineInstrBundleIterator<MyBundledInstr, true>
     reverse_bundled_iterator;
 typedef MachineInstrBundleIterator<const MyBundledInstr, true>
     const_reverse_bundled_iterator;

 #ifdef GTEST_HAS_DEATH_TEST
 #ifndef NDEBUG
 TEST(MachineInstrBundleIteratorTest, CheckForBundles) {
   MyBundledInstr MBI;
   auto I = MBI.getIterator();
   auto RI = I.getReverse();

   // Confirm that MBI is always considered bundled.
   EXPECT_TRUE(MBI.isBundledWithPred());
   EXPECT_TRUE(MBI.isBundledWithSucc());

   // Confirm that iterators check in their constructor for bundled iterators.
   EXPECT_DEATH((void)static_cast<bundled_iterator>(I),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<bundled_iterator>(MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<bundled_iterator>(&MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_bundled_iterator>(I),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_bundled_iterator>(MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_bundled_iterator>(&MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(RI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(&MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(RI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(MBI),
                "not legal to initialize");
   EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(&MBI),
                "not legal to initialize");
 }
 #endif
 #endif

 TEST(MachineInstrBundleIteratorTest, CompareToBundledMI) {
   MyBundledInstr MBI;
   const MyBundledInstr &CMBI = MBI;
   bundled_iterator I;
   const_bundled_iterator CI;

   // Confirm that MBI is always considered bundled.
   EXPECT_TRUE(MBI.isBundledWithPred());
   EXPECT_TRUE(MBI.isBundledWithSucc());

   // These invocations will crash when !NDEBUG if a conversion is taking place.
   // These checks confirm that comparison operators don't use any conversion
   // operators.
   ASSERT_FALSE(MBI == I);
   ASSERT_FALSE(&MBI == I);
   ASSERT_FALSE(CMBI == I);
   ASSERT_FALSE(&CMBI == I);
   ASSERT_FALSE(I == MBI);
   ASSERT_FALSE(I == &MBI);
   ASSERT_FALSE(I == CMBI);
   ASSERT_FALSE(I == &CMBI);
   ASSERT_FALSE(MBI == CI);
   ASSERT_FALSE(&MBI == CI);
   ASSERT_FALSE(CMBI == CI);
   ASSERT_FALSE(&CMBI == CI);
   ASSERT_FALSE(CI == MBI);
   ASSERT_FALSE(CI == &MBI);
   ASSERT_FALSE(CI == CMBI);
   ASSERT_FALSE(CI == &CMBI);
   ASSERT_FALSE(MBI.getIterator() == I);
   ASSERT_FALSE(CMBI.getIterator() == I);
   ASSERT_FALSE(I == MBI.getIterator());
   ASSERT_FALSE(I == CMBI.getIterator());
   ASSERT_FALSE(MBI.getIterator() == CI);
   ASSERT_FALSE(CMBI.getIterator() == CI);
   ASSERT_FALSE(CI == MBI.getIterator());
   ASSERT_FALSE(CI == CMBI.getIterator());
   ASSERT_TRUE(MBI != I);
   ASSERT_TRUE(&MBI != I);
   ASSERT_TRUE(CMBI != I);
   ASSERT_TRUE(&CMBI != I);
   ASSERT_TRUE(I != MBI);
   ASSERT_TRUE(I != &MBI);
   ASSERT_TRUE(I != CMBI);
   ASSERT_TRUE(I != &CMBI);
   ASSERT_TRUE(MBI != CI);
   ASSERT_TRUE(&MBI != CI);
   ASSERT_TRUE(CMBI != CI);
   ASSERT_TRUE(&CMBI != CI);
   ASSERT_TRUE(CI != MBI);
   ASSERT_TRUE(CI != &MBI);
   ASSERT_TRUE(CI != CMBI);
   ASSERT_TRUE(CI != &CMBI);
   ASSERT_TRUE(MBI.getIterator() != I);
   ASSERT_TRUE(CMBI.getIterator() != I);
   ASSERT_TRUE(I != MBI.getIterator());
   ASSERT_TRUE(I != CMBI.getIterator());
   ASSERT_TRUE(MBI.getIterator() != CI);
   ASSERT_TRUE(CMBI.getIterator() != CI);
   ASSERT_TRUE(CI != MBI.getIterator());
   ASSERT_TRUE(CI != CMBI.getIterator());
 }

 } // end namespace
	//===- MachineInstrBundleIteratorTest.cpp ---------------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/ilist_node.h"
	#include "llvm/CodeGen/MachineInstrBundleIterator.h"
	#include "gtest/gtest.h"

	using namespace llvm;

	namespace {

	struct MyBundledInstr
	: public ilist_node<MyBundledInstr, ilist_sentinel_tracking<true>> {
	bool isBundledWithPred() const { return true; }
	bool isBundledWithSucc() const { return true; }
	};
	typedef MachineInstrBundleIterator<MyBundledInstr> bundled_iterator;
	typedef MachineInstrBundleIterator<const MyBundledInstr> const_bundled_iterator;
	typedef MachineInstrBundleIterator<MyBundledInstr, true>
	reverse_bundled_iterator;
	typedef MachineInstrBundleIterator<const MyBundledInstr, true>
	const_reverse_bundled_iterator;

	#ifdef GTEST_HAS_DEATH_TEST
	#ifndef NDEBUG
	TEST(MachineInstrBundleIteratorTest, CheckForBundles) {
	MyBundledInstr MBI;
	auto I = MBI.getIterator();
	auto RI = I.getReverse();

	// Confirm that MBI is always considered bundled.
	EXPECT_TRUE(MBI.isBundledWithPred());
	EXPECT_TRUE(MBI.isBundledWithSucc());

	// Confirm that iterators check in their constructor for bundled iterators.
	EXPECT_DEATH((void)static_cast<bundled_iterator>(I),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<bundled_iterator>(MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<bundled_iterator>(&MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_bundled_iterator>(I),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_bundled_iterator>(MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_bundled_iterator>(&MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(RI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<reverse_bundled_iterator>(&MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(RI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(MBI),
	"not legal to initialize");
	EXPECT_DEATH((void)static_cast<const_reverse_bundled_iterator>(&MBI),
	"not legal to initialize");
	}
	#endif
	#endif

	TEST(MachineInstrBundleIteratorTest, CompareToBundledMI) {
	MyBundledInstr MBI;
	const MyBundledInstr &CMBI = MBI;
	bundled_iterator I;
	const_bundled_iterator CI;

	// Confirm that MBI is always considered bundled.
	EXPECT_TRUE(MBI.isBundledWithPred());
	EXPECT_TRUE(MBI.isBundledWithSucc());

	// These invocations will crash when !NDEBUG if a conversion is taking place.
	// These checks confirm that comparison operators don't use any conversion
	// operators.
	ASSERT_FALSE(MBI == I);
	ASSERT_FALSE(&MBI == I);
	ASSERT_FALSE(CMBI == I);
	ASSERT_FALSE(&CMBI == I);
	ASSERT_FALSE(I == MBI);
	ASSERT_FALSE(I == &MBI);
	ASSERT_FALSE(I == CMBI);
	ASSERT_FALSE(I == &CMBI);
	ASSERT_FALSE(MBI == CI);
	ASSERT_FALSE(&MBI == CI);
	ASSERT_FALSE(CMBI == CI);
	ASSERT_FALSE(&CMBI == CI);
	ASSERT_FALSE(CI == MBI);
	ASSERT_FALSE(CI == &MBI);
	ASSERT_FALSE(CI == CMBI);
	ASSERT_FALSE(CI == &CMBI);
	ASSERT_FALSE(MBI.getIterator() == I);
	ASSERT_FALSE(CMBI.getIterator() == I);
	ASSERT_FALSE(I == MBI.getIterator());
	ASSERT_FALSE(I == CMBI.getIterator());
	ASSERT_FALSE(MBI.getIterator() == CI);
	ASSERT_FALSE(CMBI.getIterator() == CI);
	ASSERT_FALSE(CI == MBI.getIterator());
	ASSERT_FALSE(CI == CMBI.getIterator());
	ASSERT_TRUE(MBI != I);
	ASSERT_TRUE(&MBI != I);
	ASSERT_TRUE(CMBI != I);
	ASSERT_TRUE(&CMBI != I);
	ASSERT_TRUE(I != MBI);
	ASSERT_TRUE(I != &MBI);
	ASSERT_TRUE(I != CMBI);
	ASSERT_TRUE(I != &CMBI);
	ASSERT_TRUE(MBI != CI);
	ASSERT_TRUE(&MBI != CI);
	ASSERT_TRUE(CMBI != CI);
	ASSERT_TRUE(&CMBI != CI);
	ASSERT_TRUE(CI != MBI);
	ASSERT_TRUE(CI != &MBI);
	ASSERT_TRUE(CI != CMBI);
	ASSERT_TRUE(CI != &CMBI);
	ASSERT_TRUE(MBI.getIterator() != I);
	ASSERT_TRUE(CMBI.getIterator() != I);
	ASSERT_TRUE(I != MBI.getIterator());
	ASSERT_TRUE(I != CMBI.getIterator());
	ASSERT_TRUE(MBI.getIterator() != CI);
	ASSERT_TRUE(CMBI.getIterator() != CI);
	ASSERT_TRUE(CI != MBI.getIterator());
	ASSERT_TRUE(CI != CMBI.getIterator());
	}

	} // end namespace