unittests/ADT/AnyTest.cpp - llvm - Git at Google

 //===- llvm/unittest/Support/AnyTest.cpp - Any tests ---===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/Any.h"
 #include "gtest/gtest.h"
 #include <cstdlib>

 using namespace llvm;

 namespace {

 // Make sure we can construct, copy-construct, move-construct, and assign Any's.
 TEST(AnyTest, ConstructionAndAssignment) {
   llvm::Any A;
   llvm::Any B{7};
   llvm::Any C{8};
   llvm::Any D{"hello"};
   llvm::Any E{3.7};

   // An empty Any is not anything.
   EXPECT_FALSE(A.hasValue());
   EXPECT_FALSE(any_isa<int>(A));

   // An int is an int but not something else.
   EXPECT_TRUE(B.hasValue());
   EXPECT_TRUE(any_isa<int>(B));
   EXPECT_FALSE(any_isa<float>(B));

   EXPECT_TRUE(C.hasValue());
   EXPECT_TRUE(any_isa<int>(C));

   // A const char * is a const char * but not an int.
   EXPECT_TRUE(D.hasValue());
   EXPECT_TRUE(any_isa<const char *>(D));
   EXPECT_FALSE(any_isa<int>(D));

   // A double is a double but not a float.
   EXPECT_TRUE(E.hasValue());
   EXPECT_TRUE(any_isa<double>(E));
   EXPECT_FALSE(any_isa<float>(E));

   // After copy constructing from an int, the new item and old item are both
   // ints.
   llvm::Any F(B);
   EXPECT_TRUE(B.hasValue());
   EXPECT_TRUE(F.hasValue());
   EXPECT_TRUE(any_isa<int>(F));
   EXPECT_TRUE(any_isa<int>(B));

   // After move constructing from an int, the new item is an int and the old one
   // isn't.
   llvm::Any G(std::move(C));
   EXPECT_FALSE(C.hasValue());
   EXPECT_TRUE(G.hasValue());
   EXPECT_TRUE(any_isa<int>(G));
   EXPECT_FALSE(any_isa<int>(C));

   // After copy-assigning from an int, the new item and old item are both ints.
   A = F;
   EXPECT_TRUE(A.hasValue());
   EXPECT_TRUE(F.hasValue());
   EXPECT_TRUE(any_isa<int>(A));
   EXPECT_TRUE(any_isa<int>(F));

   // After move-assigning from an int, the new item and old item are both ints.
   B = std::move(G);
   EXPECT_TRUE(B.hasValue());
   EXPECT_FALSE(G.hasValue());
   EXPECT_TRUE(any_isa<int>(B));
   EXPECT_FALSE(any_isa<int>(G));
 }

 TEST(AnyTest, GoodAnyCast) {
   llvm::Any A;
   llvm::Any B{7};
   llvm::Any C{8};
   llvm::Any D{"hello"};
   llvm::Any E{'x'};

   // Check each value twice to make sure it isn't damaged by the cast.
   EXPECT_EQ(7, llvm::any_cast<int>(B));
   EXPECT_EQ(7, llvm::any_cast<int>(B));

   EXPECT_STREQ("hello", llvm::any_cast<const char *>(D));
   EXPECT_STREQ("hello", llvm::any_cast<const char *>(D));

   EXPECT_EQ('x', llvm::any_cast<char>(E));
   EXPECT_EQ('x', llvm::any_cast<char>(E));

   llvm::Any F(B);
   EXPECT_EQ(7, llvm::any_cast<int>(F));
   EXPECT_EQ(7, llvm::any_cast<int>(F));

   llvm::Any G(std::move(C));
   EXPECT_EQ(8, llvm::any_cast<int>(G));
   EXPECT_EQ(8, llvm::any_cast<int>(G));

   A = F;
   EXPECT_EQ(7, llvm::any_cast<int>(A));
   EXPECT_EQ(7, llvm::any_cast<int>(A));

   E = std::move(G);
   EXPECT_EQ(8, llvm::any_cast<int>(E));
   EXPECT_EQ(8, llvm::any_cast<int>(E));

   // Make sure we can any_cast from an rvalue and that it's properly destroyed
   // in the process.
   EXPECT_EQ(8, llvm::any_cast<int>(std::move(E)));
   EXPECT_TRUE(E.hasValue());

   // Make sure moving from pointers gives back pointers, and that we can modify
   // the underlying value through those pointers.
   EXPECT_EQ(7, *llvm::any_cast<int>(&A));
   int *N = llvm::any_cast<int>(&A);
   *N = 42;
   EXPECT_EQ(42, llvm::any_cast<int>(A));

   // Make sure that we can any_cast to a reference and this is considered a good
   // cast, resulting in an lvalue which can be modified.
   llvm::any_cast<int &>(A) = 43;
   EXPECT_EQ(43, llvm::any_cast<int>(A));
 }

 TEST(AnyTest, CopiesAndMoves) {
   struct TestType {
     TestType() = default;
     TestType(const TestType &Other)
         : Copies(Other.Copies + 1), Moves(Other.Moves) {}
     TestType(TestType &&Other) : Copies(Other.Copies), Moves(Other.Moves + 1) {}
     int Copies = 0;
     int Moves = 0;
   };

   // One move to get TestType into the Any, and one move on the cast.
   TestType T1 = llvm::any_cast<TestType>(Any{TestType()});
   EXPECT_EQ(0, T1.Copies);
   EXPECT_EQ(2, T1.Moves);

   // One move to get TestType into the Any, and one copy on the cast.
   Any A{TestType()};
   TestType T2 = llvm::any_cast<TestType>(A);
   EXPECT_EQ(1, T2.Copies);
   EXPECT_EQ(1, T2.Moves);

   // One move to get TestType into the Any, and one move on the cast.
   TestType T3 = llvm::any_cast<TestType>(std::move(A));
   EXPECT_EQ(0, T3.Copies);
   EXPECT_EQ(2, T3.Moves);
 }

 TEST(AnyTest, BadAnyCast) {
   llvm::Any A;
   llvm::Any B{7};
   llvm::Any C{"hello"};
   llvm::Any D{'x'};

 #if !defined(NDEBUG) && GTEST_HAS_DEATH_TEST
   EXPECT_DEATH(llvm::any_cast<int>(A), "");

   EXPECT_DEATH(llvm::any_cast<float>(B), "");
   EXPECT_DEATH(llvm::any_cast<int *>(B), "");

   EXPECT_DEATH(llvm::any_cast<std::string>(C), "");

   EXPECT_DEATH(llvm::any_cast<unsigned char>(D), "");
 #endif
 }

 } // anonymous namespace
	//===- llvm/unittest/Support/AnyTest.cpp - Any tests ---===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/Any.h"
	#include "gtest/gtest.h"
	#include <cstdlib>

	using namespace llvm;

	namespace {

	// Make sure we can construct, copy-construct, move-construct, and assign Any's.
	TEST(AnyTest, ConstructionAndAssignment) {
	llvm::Any A;
	llvm::Any B{7};
	llvm::Any C{8};
	llvm::Any D{"hello"};
	llvm::Any E{3.7};

	// An empty Any is not anything.
	EXPECT_FALSE(A.hasValue());
	EXPECT_FALSE(any_isa<int>(A));

	// An int is an int but not something else.
	EXPECT_TRUE(B.hasValue());
	EXPECT_TRUE(any_isa<int>(B));
	EXPECT_FALSE(any_isa<float>(B));

	EXPECT_TRUE(C.hasValue());
	EXPECT_TRUE(any_isa<int>(C));

	// A const char * is a const char * but not an int.
	EXPECT_TRUE(D.hasValue());
	EXPECT_TRUE(any_isa<const char *>(D));
	EXPECT_FALSE(any_isa<int>(D));

	// A double is a double but not a float.
	EXPECT_TRUE(E.hasValue());
	EXPECT_TRUE(any_isa<double>(E));
	EXPECT_FALSE(any_isa<float>(E));

	// After copy constructing from an int, the new item and old item are both
	// ints.
	llvm::Any F(B);
	EXPECT_TRUE(B.hasValue());
	EXPECT_TRUE(F.hasValue());
	EXPECT_TRUE(any_isa<int>(F));
	EXPECT_TRUE(any_isa<int>(B));

	// After move constructing from an int, the new item is an int and the old one
	// isn't.
	llvm::Any G(std::move(C));
	EXPECT_FALSE(C.hasValue());
	EXPECT_TRUE(G.hasValue());
	EXPECT_TRUE(any_isa<int>(G));
	EXPECT_FALSE(any_isa<int>(C));

	// After copy-assigning from an int, the new item and old item are both ints.
	A = F;
	EXPECT_TRUE(A.hasValue());
	EXPECT_TRUE(F.hasValue());
	EXPECT_TRUE(any_isa<int>(A));
	EXPECT_TRUE(any_isa<int>(F));

	// After move-assigning from an int, the new item and old item are both ints.
	B = std::move(G);
	EXPECT_TRUE(B.hasValue());
	EXPECT_FALSE(G.hasValue());
	EXPECT_TRUE(any_isa<int>(B));
	EXPECT_FALSE(any_isa<int>(G));
	}

	TEST(AnyTest, GoodAnyCast) {
	llvm::Any A;
	llvm::Any B{7};
	llvm::Any C{8};
	llvm::Any D{"hello"};
	llvm::Any E{'x'};

	// Check each value twice to make sure it isn't damaged by the cast.
	EXPECT_EQ(7, llvm::any_cast<int>(B));
	EXPECT_EQ(7, llvm::any_cast<int>(B));

	EXPECT_STREQ("hello", llvm::any_cast<const char *>(D));
	EXPECT_STREQ("hello", llvm::any_cast<const char *>(D));

	EXPECT_EQ('x', llvm::any_cast<char>(E));
	EXPECT_EQ('x', llvm::any_cast<char>(E));

	llvm::Any F(B);
	EXPECT_EQ(7, llvm::any_cast<int>(F));
	EXPECT_EQ(7, llvm::any_cast<int>(F));

	llvm::Any G(std::move(C));
	EXPECT_EQ(8, llvm::any_cast<int>(G));
	EXPECT_EQ(8, llvm::any_cast<int>(G));

	A = F;
	EXPECT_EQ(7, llvm::any_cast<int>(A));
	EXPECT_EQ(7, llvm::any_cast<int>(A));

	E = std::move(G);
	EXPECT_EQ(8, llvm::any_cast<int>(E));
	EXPECT_EQ(8, llvm::any_cast<int>(E));

	// Make sure we can any_cast from an rvalue and that it's properly destroyed
	// in the process.
	EXPECT_EQ(8, llvm::any_cast<int>(std::move(E)));
	EXPECT_TRUE(E.hasValue());

	// Make sure moving from pointers gives back pointers, and that we can modify
	// the underlying value through those pointers.
	EXPECT_EQ(7, *llvm::any_cast<int>(&A));
	int *N = llvm::any_cast<int>(&A);
	*N = 42;
	EXPECT_EQ(42, llvm::any_cast<int>(A));

	// Make sure that we can any_cast to a reference and this is considered a good
	// cast, resulting in an lvalue which can be modified.
	llvm::any_cast<int &>(A) = 43;
	EXPECT_EQ(43, llvm::any_cast<int>(A));
	}

	TEST(AnyTest, CopiesAndMoves) {
	struct TestType {
	TestType() = default;
	TestType(const TestType &Other)
	: Copies(Other.Copies + 1), Moves(Other.Moves) {}
	TestType(TestType &&Other) : Copies(Other.Copies), Moves(Other.Moves + 1) {}
	int Copies = 0;
	int Moves = 0;
	};

	// One move to get TestType into the Any, and one move on the cast.
	TestType T1 = llvm::any_cast<TestType>(Any{TestType()});
	EXPECT_EQ(0, T1.Copies);
	EXPECT_EQ(2, T1.Moves);

	// One move to get TestType into the Any, and one copy on the cast.
	Any A{TestType()};
	TestType T2 = llvm::any_cast<TestType>(A);
	EXPECT_EQ(1, T2.Copies);
	EXPECT_EQ(1, T2.Moves);

	// One move to get TestType into the Any, and one move on the cast.
	TestType T3 = llvm::any_cast<TestType>(std::move(A));
	EXPECT_EQ(0, T3.Copies);
	EXPECT_EQ(2, T3.Moves);
	}

	TEST(AnyTest, BadAnyCast) {
	llvm::Any A;
	llvm::Any B{7};
	llvm::Any C{"hello"};
	llvm::Any D{'x'};

	#if !defined(NDEBUG) && GTEST_HAS_DEATH_TEST
	EXPECT_DEATH(llvm::any_cast<int>(A), "");

	EXPECT_DEATH(llvm::any_cast<float>(B), "");
	EXPECT_DEATH(llvm::any_cast<int *>(B), "");

	EXPECT_DEATH(llvm::any_cast<std::string>(C), "");

	EXPECT_DEATH(llvm::any_cast<unsigned char>(D), "");
	#endif
	}

	} // anonymous namespace