test/unittests/utils-unittest.cc - v8/v8 - Git at Google

 // Copyright 2014 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <limits>

 #include "src/utils.h"
 #include "testing/gtest-support.h"

 namespace v8 {
 namespace internal {

 template <typename T>
 class UtilsTest : public ::testing::Test {};

 typedef ::testing::Types<signed char, unsigned char,
                          short,                    // NOLINT(runtime/int)
                          unsigned short,           // NOLINT(runtime/int)
                          int, unsigned int, long,  // NOLINT(runtime/int)
                          unsigned long,            // NOLINT(runtime/int)
                          long long,                // NOLINT(runtime/int)
                          unsigned long long,       // NOLINT(runtime/int)
                          int8_t, uint8_t, int16_t, uint16_t, int32_t, uint32_t,
                          int64_t, uint64_t>
     IntegerTypes;

 TYPED_TEST_SUITE(UtilsTest, IntegerTypes);

 TYPED_TEST(UtilsTest, SaturateSub) {
   TypeParam min = std::numeric_limits<TypeParam>::min();
   TypeParam max = std::numeric_limits<TypeParam>::max();
   EXPECT_EQ(SaturateSub<TypeParam>(min, 0), min);
   EXPECT_EQ(SaturateSub<TypeParam>(max, 0), max);
   EXPECT_EQ(SaturateSub<TypeParam>(max, min), max);
   EXPECT_EQ(SaturateSub<TypeParam>(min, max), min);
   EXPECT_EQ(SaturateSub<TypeParam>(min, max / 3), min);
   EXPECT_EQ(SaturateSub<TypeParam>(min + 1, 2), min);
   if (std::numeric_limits<TypeParam>::is_signed) {
     EXPECT_EQ(SaturateSub<TypeParam>(min, min), static_cast<TypeParam>(0));
     EXPECT_EQ(SaturateSub<TypeParam>(0, min), max);
     EXPECT_EQ(SaturateSub<TypeParam>(max / 3, min), max);
     EXPECT_EQ(SaturateSub<TypeParam>(max / 5, min), max);
     EXPECT_EQ(SaturateSub<TypeParam>(min / 3, max), min);
     EXPECT_EQ(SaturateSub<TypeParam>(min / 9, max), min);
     EXPECT_EQ(SaturateSub<TypeParam>(max, min / 3), max);
     EXPECT_EQ(SaturateSub<TypeParam>(min, max / 3), min);
     EXPECT_EQ(SaturateSub<TypeParam>(max / 3 * 2, min / 2), max);
     EXPECT_EQ(SaturateSub<TypeParam>(min / 3 * 2, max / 2), min);
   } else {
     EXPECT_EQ(SaturateSub<TypeParam>(min, min), min);
     EXPECT_EQ(SaturateSub<TypeParam>(0, min), min);
     EXPECT_EQ(SaturateSub<TypeParam>(0, max), min);
     EXPECT_EQ(SaturateSub<TypeParam>(max / 3, max), min);
     EXPECT_EQ(SaturateSub<TypeParam>(max - 3, max), min);
   }
   TypeParam test_cases[] = {static_cast<TypeParam>(min / 23),
                             static_cast<TypeParam>(max / 3),
                             63,
                             static_cast<TypeParam>(min / 6),
                             static_cast<TypeParam>(max / 55),
                             static_cast<TypeParam>(min / 2),
                             static_cast<TypeParam>(max / 2),
                             0,
                             1,
                             2,
                             3,
                             4,
                             42};
   TRACED_FOREACH(TypeParam, x, test_cases) {
     TRACED_FOREACH(TypeParam, y, test_cases) {
       if (std::numeric_limits<TypeParam>::is_signed) {
         EXPECT_EQ(SaturateSub<TypeParam>(x, y), x - y);
       } else {
         EXPECT_EQ(SaturateSub<TypeParam>(x, y), y > x ? min : x - y);
       }
     }
   }
 }

 TYPED_TEST(UtilsTest, SaturateAdd) {
   TypeParam min = std::numeric_limits<TypeParam>::min();
   TypeParam max = std::numeric_limits<TypeParam>::max();
   EXPECT_EQ(SaturateAdd<TypeParam>(min, min), min);
   EXPECT_EQ(SaturateAdd<TypeParam>(max, max), max);
   EXPECT_EQ(SaturateAdd<TypeParam>(min, min / 3), min);
   EXPECT_EQ(SaturateAdd<TypeParam>(max / 8 * 7, max / 3 * 2), max);
   EXPECT_EQ(SaturateAdd<TypeParam>(min / 3 * 2, min / 8 * 7), min);
   EXPECT_EQ(SaturateAdd<TypeParam>(max / 20 * 18, max / 25 * 18), max);
   EXPECT_EQ(SaturateAdd<TypeParam>(min / 3 * 2, min / 3 * 2), min);
   EXPECT_EQ(SaturateAdd<TypeParam>(max - 1, 2), max);
   EXPECT_EQ(SaturateAdd<TypeParam>(max - 100, 101), max);
   TypeParam test_cases[] = {static_cast<TypeParam>(min / 23),
                             static_cast<TypeParam>(max / 3),
                             63,
                             static_cast<TypeParam>(min / 6),
                             static_cast<TypeParam>(max / 55),
                             static_cast<TypeParam>(min / 2),
                             static_cast<TypeParam>(max / 2),
                             0,
                             1,
                             2,
                             3,
                             4,
                             42};
   TRACED_FOREACH(TypeParam, x, test_cases) {
     TRACED_FOREACH(TypeParam, y, test_cases) {
       EXPECT_EQ(SaturateAdd<TypeParam>(x, y), x + y);
     }
   }
 }

 TYPED_TEST(UtilsTest, PassesFilterTest) {
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefg")));
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefg*")));
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abc*")));
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("*")));
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("-~")));
   EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefgh")));
   EXPECT_TRUE(PassesFilter(CStrVector("abdefg"), CStrVector("-")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefg")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefg*")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abc*")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-*")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("~")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("")));
   EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefgh")));

   EXPECT_TRUE(PassesFilter(CStrVector(""), CStrVector("")));
   EXPECT_TRUE(PassesFilter(CStrVector(""), CStrVector("*")));
   EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("-")));
   EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("-*")));
   EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("a")));
 }

 TEST(UtilsTest, IsInBounds) {
 // for column consistency and terseness
 #define INB(x, y, z) EXPECT_TRUE(IsInBounds(x, y, z))
 #define OOB(x, y, z) EXPECT_FALSE(IsInBounds(x, y, z))
   INB(0, 0, 1);
   INB(0, 1, 1);
   INB(1, 0, 1);

   OOB(0, 2, 1);
   OOB(2, 0, 1);

   INB(0, 0, 2);
   INB(0, 1, 2);
   INB(0, 2, 2);

   INB(0, 0, 2);
   INB(1, 0, 2);
   INB(2, 0, 2);

   OOB(0, 3, 2);
   OOB(3, 0, 2);

   INB(0, 1, 2);
   INB(1, 1, 2);

   OOB(1, 2, 2);
   OOB(2, 1, 2);

   const size_t max = std::numeric_limits<size_t>::max();
   const size_t half = max / 2;

   // limit cases.
   INB(0, 0, max);
   INB(0, 1, max);
   INB(1, 0, max);
   INB(max, 0, max);
   INB(0, max, max);
   INB(max - 1, 0, max);
   INB(0, max - 1, max);
   INB(max - 1, 1, max);
   INB(1, max - 1, max);

   INB(half, half, max);
   INB(half + 1, half, max);
   INB(half, half + 1, max);

   OOB(max, 0, 0);
   OOB(0, max, 0);
   OOB(max, 0, 1);
   OOB(0, max, 1);
   OOB(max, 0, 2);
   OOB(0, max, 2);

   OOB(max, 0, max - 1);
   OOB(0, max, max - 1);

   // wraparound cases.
   OOB(max, 1, max);
   OOB(1, max, max);
   OOB(max - 1, 2, max);
   OOB(2, max - 1, max);
   OOB(half + 1, half + 1, max);
   OOB(half + 1, half + 1, max);

 #undef INB
 #undef OOB
 }

 }  // namespace internal
 }  // namespace v8
	// Copyright 2014 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <limits>

	#include "src/utils.h"
	#include "testing/gtest-support.h"

	namespace v8 {
	namespace internal {

	template <typename T>
	class UtilsTest : public ::testing::Test {};

	typedef ::testing::Types<signed char, unsigned char,
	short, // NOLINT(runtime/int)
	unsigned short, // NOLINT(runtime/int)
	int, unsigned int, long, // NOLINT(runtime/int)
	unsigned long, // NOLINT(runtime/int)
	long long, // NOLINT(runtime/int)
	unsigned long long, // NOLINT(runtime/int)
	int8_t, uint8_t, int16_t, uint16_t, int32_t, uint32_t,
	int64_t, uint64_t>
	IntegerTypes;

	TYPED_TEST_SUITE(UtilsTest, IntegerTypes);

	TYPED_TEST(UtilsTest, SaturateSub) {
	TypeParam min = std::numeric_limits<TypeParam>::min();
	TypeParam max = std::numeric_limits<TypeParam>::max();
	EXPECT_EQ(SaturateSub<TypeParam>(min, 0), min);
	EXPECT_EQ(SaturateSub<TypeParam>(max, 0), max);
	EXPECT_EQ(SaturateSub<TypeParam>(max, min), max);
	EXPECT_EQ(SaturateSub<TypeParam>(min, max), min);
	EXPECT_EQ(SaturateSub<TypeParam>(min, max / 3), min);
	EXPECT_EQ(SaturateSub<TypeParam>(min + 1, 2), min);
	if (std::numeric_limits<TypeParam>::is_signed) {
	EXPECT_EQ(SaturateSub<TypeParam>(min, min), static_cast<TypeParam>(0));
	EXPECT_EQ(SaturateSub<TypeParam>(0, min), max);
	EXPECT_EQ(SaturateSub<TypeParam>(max / 3, min), max);
	EXPECT_EQ(SaturateSub<TypeParam>(max / 5, min), max);
	EXPECT_EQ(SaturateSub<TypeParam>(min / 3, max), min);
	EXPECT_EQ(SaturateSub<TypeParam>(min / 9, max), min);
	EXPECT_EQ(SaturateSub<TypeParam>(max, min / 3), max);
	EXPECT_EQ(SaturateSub<TypeParam>(min, max / 3), min);
	EXPECT_EQ(SaturateSub<TypeParam>(max / 3 * 2, min / 2), max);
	EXPECT_EQ(SaturateSub<TypeParam>(min / 3 * 2, max / 2), min);
	} else {
	EXPECT_EQ(SaturateSub<TypeParam>(min, min), min);
	EXPECT_EQ(SaturateSub<TypeParam>(0, min), min);
	EXPECT_EQ(SaturateSub<TypeParam>(0, max), min);
	EXPECT_EQ(SaturateSub<TypeParam>(max / 3, max), min);
	EXPECT_EQ(SaturateSub<TypeParam>(max - 3, max), min);
	}
	TypeParam test_cases[] = {static_cast<TypeParam>(min / 23),
	static_cast<TypeParam>(max / 3),
	63,
	static_cast<TypeParam>(min / 6),
	static_cast<TypeParam>(max / 55),
	static_cast<TypeParam>(min / 2),
	static_cast<TypeParam>(max / 2),
	0,
	1,
	2,
	3,
	4,
	42};
	TRACED_FOREACH(TypeParam, x, test_cases) {
	TRACED_FOREACH(TypeParam, y, test_cases) {
	if (std::numeric_limits<TypeParam>::is_signed) {
	EXPECT_EQ(SaturateSub<TypeParam>(x, y), x - y);
	} else {
	EXPECT_EQ(SaturateSub<TypeParam>(x, y), y > x ? min : x - y);
	}
	}
	}
	}

	TYPED_TEST(UtilsTest, SaturateAdd) {
	TypeParam min = std::numeric_limits<TypeParam>::min();
	TypeParam max = std::numeric_limits<TypeParam>::max();
	EXPECT_EQ(SaturateAdd<TypeParam>(min, min), min);
	EXPECT_EQ(SaturateAdd<TypeParam>(max, max), max);
	EXPECT_EQ(SaturateAdd<TypeParam>(min, min / 3), min);
	EXPECT_EQ(SaturateAdd<TypeParam>(max / 8 * 7, max / 3 * 2), max);
	EXPECT_EQ(SaturateAdd<TypeParam>(min / 3 * 2, min / 8 * 7), min);
	EXPECT_EQ(SaturateAdd<TypeParam>(max / 20 * 18, max / 25 * 18), max);
	EXPECT_EQ(SaturateAdd<TypeParam>(min / 3 * 2, min / 3 * 2), min);
	EXPECT_EQ(SaturateAdd<TypeParam>(max - 1, 2), max);
	EXPECT_EQ(SaturateAdd<TypeParam>(max - 100, 101), max);
	TypeParam test_cases[] = {static_cast<TypeParam>(min / 23),
	static_cast<TypeParam>(max / 3),
	63,
	static_cast<TypeParam>(min / 6),
	static_cast<TypeParam>(max / 55),
	static_cast<TypeParam>(min / 2),
	static_cast<TypeParam>(max / 2),
	0,
	1,
	2,
	3,
	4,
	42};
	TRACED_FOREACH(TypeParam, x, test_cases) {
	TRACED_FOREACH(TypeParam, y, test_cases) {
	EXPECT_EQ(SaturateAdd<TypeParam>(x, y), x + y);
	}
	}
	}

	TYPED_TEST(UtilsTest, PassesFilterTest) {
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefg")));
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefg*")));
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("abc*")));
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("*")));
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("-~")));
	EXPECT_TRUE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefgh")));
	EXPECT_TRUE(PassesFilter(CStrVector("abdefg"), CStrVector("-")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefg")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abcdefg*")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-abc*")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("-*")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("~")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("")));
	EXPECT_FALSE(PassesFilter(CStrVector("abcdefg"), CStrVector("abcdefgh")));

	EXPECT_TRUE(PassesFilter(CStrVector(""), CStrVector("")));
	EXPECT_TRUE(PassesFilter(CStrVector(""), CStrVector("*")));
	EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("-")));
	EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("-*")));
	EXPECT_FALSE(PassesFilter(CStrVector(""), CStrVector("a")));
	}

	TEST(UtilsTest, IsInBounds) {
	// for column consistency and terseness
	#define INB(x, y, z) EXPECT_TRUE(IsInBounds(x, y, z))
	#define OOB(x, y, z) EXPECT_FALSE(IsInBounds(x, y, z))
	INB(0, 0, 1);
	INB(0, 1, 1);
	INB(1, 0, 1);

	OOB(0, 2, 1);
	OOB(2, 0, 1);

	INB(0, 0, 2);
	INB(0, 1, 2);
	INB(0, 2, 2);

	INB(0, 0, 2);
	INB(1, 0, 2);
	INB(2, 0, 2);

	OOB(0, 3, 2);
	OOB(3, 0, 2);

	INB(0, 1, 2);
	INB(1, 1, 2);

	OOB(1, 2, 2);
	OOB(2, 1, 2);

	const size_t max = std::numeric_limits<size_t>::max();
	const size_t half = max / 2;

	// limit cases.
	INB(0, 0, max);
	INB(0, 1, max);
	INB(1, 0, max);
	INB(max, 0, max);
	INB(0, max, max);
	INB(max - 1, 0, max);
	INB(0, max - 1, max);
	INB(max - 1, 1, max);
	INB(1, max - 1, max);

	INB(half, half, max);
	INB(half + 1, half, max);
	INB(half, half + 1, max);

	OOB(max, 0, 0);
	OOB(0, max, 0);
	OOB(max, 0, 1);
	OOB(0, max, 1);
	OOB(max, 0, 2);
	OOB(0, max, 2);

	OOB(max, 0, max - 1);
	OOB(0, max, max - 1);

	// wraparound cases.
	OOB(max, 1, max);
	OOB(1, max, max);
	OOB(max - 1, 2, max);
	OOB(2, max - 1, max);
	OOB(half + 1, half + 1, max);
	OOB(half + 1, half + 1, max);

	#undef INB
	#undef OOB
	}

	} // namespace internal
	} // namespace v8