// 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 "src/base/bits.h" #include #include "testing/gtest-support.h" #ifdef DEBUG #define DISABLE_IN_RELEASE(Name) Name #else #define DISABLE_IN_RELEASE(Name) DISABLED_##Name #endif namespace v8 { namespace base { namespace bits { TEST(Bits, CountPopulation8) { EXPECT_EQ(0u, CountPopulation(uint8_t{0})); EXPECT_EQ(1u, CountPopulation(uint8_t{1})); EXPECT_EQ(2u, CountPopulation(uint8_t{0x11})); EXPECT_EQ(4u, CountPopulation(uint8_t{0x0F})); EXPECT_EQ(6u, CountPopulation(uint8_t{0x3F})); EXPECT_EQ(8u, CountPopulation(uint8_t{0xFF})); } TEST(Bits, CountPopulation16) { EXPECT_EQ(0u, CountPopulation(uint16_t{0})); EXPECT_EQ(1u, CountPopulation(uint16_t{1})); EXPECT_EQ(4u, CountPopulation(uint16_t{0x1111})); EXPECT_EQ(8u, CountPopulation(uint16_t{0xF0F0})); EXPECT_EQ(12u, CountPopulation(uint16_t{0xF0FF})); EXPECT_EQ(16u, CountPopulation(uint16_t{0xFFFF})); } TEST(Bits, CountPopulation32) { EXPECT_EQ(0u, CountPopulation(uint32_t{0})); EXPECT_EQ(1u, CountPopulation(uint32_t{1})); EXPECT_EQ(8u, CountPopulation(uint32_t{0x11111111})); EXPECT_EQ(16u, CountPopulation(uint32_t{0xF0F0F0F0})); EXPECT_EQ(24u, CountPopulation(uint32_t{0xFFF0F0FF})); EXPECT_EQ(32u, CountPopulation(uint32_t{0xFFFFFFFF})); } TEST(Bits, CountPopulation64) { EXPECT_EQ(0u, CountPopulation(uint64_t{0})); EXPECT_EQ(1u, CountPopulation(uint64_t{1})); EXPECT_EQ(2u, CountPopulation(uint64_t{0x8000000000000001})); EXPECT_EQ(8u, CountPopulation(uint64_t{0x11111111})); EXPECT_EQ(16u, CountPopulation(uint64_t{0xF0F0F0F0})); EXPECT_EQ(24u, CountPopulation(uint64_t{0xFFF0F0FF})); EXPECT_EQ(32u, CountPopulation(uint64_t{0xFFFFFFFF})); EXPECT_EQ(16u, CountPopulation(uint64_t{0x1111111111111111})); EXPECT_EQ(32u, CountPopulation(uint64_t{0xF0F0F0F0F0F0F0F0})); EXPECT_EQ(48u, CountPopulation(uint64_t{0xFFF0F0FFFFF0F0FF})); EXPECT_EQ(64u, CountPopulation(uint64_t{0xFFFFFFFFFFFFFFFF})); } TEST(Bits, CountLeadingZeros16) { EXPECT_EQ(16u, CountLeadingZeros(uint16_t{0})); EXPECT_EQ(15u, CountLeadingZeros(uint16_t{1})); TRACED_FORRANGE(uint16_t, shift, 0, 15) { EXPECT_EQ(15u - shift, CountLeadingZeros(static_cast(1 << shift))); } EXPECT_EQ(4u, CountLeadingZeros(uint16_t{0x0F0F})); } TEST(Bits, CountLeadingZeros32) { EXPECT_EQ(32u, CountLeadingZeros(uint32_t{0})); EXPECT_EQ(31u, CountLeadingZeros(uint32_t{1})); TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(31u - shift, CountLeadingZeros(uint32_t{1} << shift)); } EXPECT_EQ(4u, CountLeadingZeros(uint32_t{0x0F0F0F0F})); } TEST(Bits, CountLeadingZeros64) { EXPECT_EQ(64u, CountLeadingZeros(uint64_t{0})); EXPECT_EQ(63u, CountLeadingZeros(uint64_t{1})); TRACED_FORRANGE(uint32_t, shift, 0, 63) { EXPECT_EQ(63u - shift, CountLeadingZeros(uint64_t{1} << shift)); } EXPECT_EQ(36u, CountLeadingZeros(uint64_t{0x0F0F0F0F})); EXPECT_EQ(4u, CountLeadingZeros(uint64_t{0x0F0F0F0F00000000})); } TEST(Bits, CountTrailingZeros16) { EXPECT_EQ(16u, CountTrailingZeros(uint16_t{0})); EXPECT_EQ(15u, CountTrailingZeros(uint16_t{0x8000})); TRACED_FORRANGE(uint16_t, shift, 0, 15) { EXPECT_EQ(shift, CountTrailingZeros(static_cast(1 << shift))); } EXPECT_EQ(4u, CountTrailingZeros(uint16_t{0xF0F0u})); } TEST(Bits, CountTrailingZerosu32) { EXPECT_EQ(32u, CountTrailingZeros(uint32_t{0})); EXPECT_EQ(31u, CountTrailingZeros(uint32_t{0x80000000})); TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(shift, CountTrailingZeros(uint32_t{1} << shift)); } EXPECT_EQ(4u, CountTrailingZeros(uint32_t{0xF0F0F0F0u})); } TEST(Bits, CountTrailingZerosi32) { EXPECT_EQ(32u, CountTrailingZeros(int32_t{0})); TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(shift, CountTrailingZeros(int32_t{1} << shift)); } EXPECT_EQ(4u, CountTrailingZeros(int32_t{0x70F0F0F0u})); EXPECT_EQ(2u, CountTrailingZeros(int32_t{-4})); EXPECT_EQ(0u, CountTrailingZeros(int32_t{-1})); } TEST(Bits, CountTrailingZeros64) { EXPECT_EQ(64u, CountTrailingZeros(uint64_t{0})); EXPECT_EQ(63u, CountTrailingZeros(uint64_t{0x8000000000000000})); TRACED_FORRANGE(uint32_t, shift, 0, 63) { EXPECT_EQ(shift, CountTrailingZeros(uint64_t{1} << shift)); } EXPECT_EQ(4u, CountTrailingZeros(uint64_t{0xF0F0F0F0})); EXPECT_EQ(36u, CountTrailingZeros(uint64_t{0xF0F0F0F000000000})); } TEST(Bits, IsPowerOfTwo32) { EXPECT_FALSE(IsPowerOfTwo(0U)); TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_TRUE(IsPowerOfTwo(1U << shift)); EXPECT_FALSE(IsPowerOfTwo((1U << shift) + 5U)); EXPECT_FALSE(IsPowerOfTwo(~(1U << shift))); } TRACED_FORRANGE(uint32_t, shift, 2, 31) { EXPECT_FALSE(IsPowerOfTwo((1U << shift) - 1U)); } EXPECT_FALSE(IsPowerOfTwo(0xFFFFFFFF)); } TEST(Bits, IsPowerOfTwo64) { EXPECT_FALSE(IsPowerOfTwo(uint64_t{0})); TRACED_FORRANGE(uint32_t, shift, 0, 63) { EXPECT_TRUE(IsPowerOfTwo(uint64_t{1} << shift)); EXPECT_FALSE(IsPowerOfTwo((uint64_t{1} << shift) + 5U)); EXPECT_FALSE(IsPowerOfTwo(~(uint64_t{1} << shift))); } TRACED_FORRANGE(uint32_t, shift, 2, 63) { EXPECT_FALSE(IsPowerOfTwo((uint64_t{1} << shift) - 1U)); } EXPECT_FALSE(IsPowerOfTwo(uint64_t{0xFFFFFFFFFFFFFFFF})); } TEST(Bits, WhichPowerOfTwo32) { TRACED_FORRANGE(int, shift, 0, 30) { EXPECT_EQ(shift, WhichPowerOfTwo(int32_t{1} << shift)); } TRACED_FORRANGE(int, shift, 0, 31) { EXPECT_EQ(shift, WhichPowerOfTwo(uint32_t{1} << shift)); } } TEST(Bits, WhichPowerOfTwo64) { TRACED_FORRANGE(int, shift, 0, 62) { EXPECT_EQ(shift, WhichPowerOfTwo(int64_t{1} << shift)); } TRACED_FORRANGE(int, shift, 0, 63) { EXPECT_EQ(shift, WhichPowerOfTwo(uint64_t{1} << shift)); } } TEST(Bits, RoundUpToPowerOfTwo32) { TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(1u << shift, RoundUpToPowerOfTwo32(1u << shift)); } EXPECT_EQ(1u, RoundUpToPowerOfTwo32(0)); EXPECT_EQ(1u, RoundUpToPowerOfTwo32(1)); EXPECT_EQ(4u, RoundUpToPowerOfTwo32(3)); EXPECT_EQ(0x80000000u, RoundUpToPowerOfTwo32(0x7FFFFFFFu)); } TEST(BitsDeathTest, DISABLE_IN_RELEASE(RoundUpToPowerOfTwo32)) { ASSERT_DEATH_IF_SUPPORTED({ RoundUpToPowerOfTwo32(0x80000001u); }, ".*heck failed:.* << 31"); } TEST(Bits, RoundUpToPowerOfTwo64) { TRACED_FORRANGE(uint64_t, shift, 0, 63) { uint64_t value = uint64_t{1} << shift; EXPECT_EQ(value, RoundUpToPowerOfTwo64(value)); } EXPECT_EQ(uint64_t{1}, RoundUpToPowerOfTwo64(0)); EXPECT_EQ(uint64_t{1}, RoundUpToPowerOfTwo64(1)); EXPECT_EQ(uint64_t{4}, RoundUpToPowerOfTwo64(3)); EXPECT_EQ(uint64_t{1} << 63, RoundUpToPowerOfTwo64((uint64_t{1} << 63) - 1)); EXPECT_EQ(uint64_t{1} << 63, RoundUpToPowerOfTwo64(uint64_t{1} << 63)); } TEST(BitsDeathTest, DISABLE_IN_RELEASE(RoundUpToPowerOfTwo64)) { ASSERT_DEATH_IF_SUPPORTED({ RoundUpToPowerOfTwo64((uint64_t{1} << 63) + 1); }, ".*heck failed:.* << 63"); } TEST(Bits, RoundDownToPowerOfTwo32) { TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(1u << shift, RoundDownToPowerOfTwo32(1u << shift)); } EXPECT_EQ(0u, RoundDownToPowerOfTwo32(0)); EXPECT_EQ(4u, RoundDownToPowerOfTwo32(5)); EXPECT_EQ(0x80000000u, RoundDownToPowerOfTwo32(0x80000001u)); } TEST(Bits, RotateRight32) { TRACED_FORRANGE(uint32_t, shift, 0, 31) { EXPECT_EQ(0u, RotateRight32(0u, shift)); } EXPECT_EQ(1u, RotateRight32(1, 0)); EXPECT_EQ(1u, RotateRight32(2, 1)); EXPECT_EQ(0x80000000u, RotateRight32(1, 1)); } TEST(Bits, RotateRight64) { TRACED_FORRANGE(uint64_t, shift, 0, 63) { EXPECT_EQ(0u, RotateRight64(0u, shift)); } EXPECT_EQ(1u, RotateRight64(1, 0)); EXPECT_EQ(1u, RotateRight64(2, 1)); EXPECT_EQ(uint64_t{0x8000000000000000}, RotateRight64(1, 1)); } TEST(Bits, SignedAddOverflow32) { int32_t val = 0; EXPECT_FALSE(SignedAddOverflow32(0, 0, &val)); EXPECT_EQ(0, val); EXPECT_TRUE( SignedAddOverflow32(std::numeric_limits::max(), 1, &val)); EXPECT_EQ(std::numeric_limits::min(), val); EXPECT_TRUE( SignedAddOverflow32(std::numeric_limits::min(), -1, &val)); EXPECT_EQ(std::numeric_limits::max(), val); EXPECT_TRUE(SignedAddOverflow32(std::numeric_limits::max(), std::numeric_limits::max(), &val)); EXPECT_EQ(-2, val); TRACED_FORRANGE(int32_t, i, 1, 50) { TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_FALSE(SignedAddOverflow32(i, j, &val)); EXPECT_EQ(i + j, val); } } } TEST(Bits, SignedSubOverflow32) { int32_t val = 0; EXPECT_FALSE(SignedSubOverflow32(0, 0, &val)); EXPECT_EQ(0, val); EXPECT_TRUE( SignedSubOverflow32(std::numeric_limits::min(), 1, &val)); EXPECT_EQ(std::numeric_limits::max(), val); EXPECT_TRUE( SignedSubOverflow32(std::numeric_limits::max(), -1, &val)); EXPECT_EQ(std::numeric_limits::min(), val); TRACED_FORRANGE(int32_t, i, 1, 50) { TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_FALSE(SignedSubOverflow32(i, j, &val)); EXPECT_EQ(i - j, val); } } } TEST(Bits, SignedMulHigh32) { EXPECT_EQ(0, SignedMulHigh32(0, 0)); TRACED_FORRANGE(int32_t, i, 1, 50) { TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_EQ(0, SignedMulHigh32(i, j)); } } EXPECT_EQ(-1073741824, SignedMulHigh32(std::numeric_limits::max(), std::numeric_limits::min())); EXPECT_EQ(-1073741824, SignedMulHigh32(std::numeric_limits::min(), std::numeric_limits::max())); EXPECT_EQ(1, SignedMulHigh32(1024 * 1024 * 1024, 4)); EXPECT_EQ(2, SignedMulHigh32(8 * 1024, 1024 * 1024)); } TEST(Bits, SignedMulHighAndAdd32) { TRACED_FORRANGE(int32_t, i, 1, 50) { EXPECT_EQ(i, SignedMulHighAndAdd32(0, 0, i)); TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_EQ(i, SignedMulHighAndAdd32(j, j, i)); } EXPECT_EQ(i + 1, SignedMulHighAndAdd32(1024 * 1024 * 1024, 4, i)); } } TEST(Bits, SignedDiv32) { EXPECT_EQ(std::numeric_limits::min(), SignedDiv32(std::numeric_limits::min(), -1)); EXPECT_EQ(std::numeric_limits::max(), SignedDiv32(std::numeric_limits::max(), 1)); TRACED_FORRANGE(int32_t, i, 0, 50) { EXPECT_EQ(0, SignedDiv32(i, 0)); TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_EQ(1, SignedDiv32(j, j)); EXPECT_EQ(i / j, SignedDiv32(i, j)); EXPECT_EQ(-i / j, SignedDiv32(i, -j)); } } } TEST(Bits, SignedMod32) { EXPECT_EQ(0, SignedMod32(std::numeric_limits::min(), -1)); EXPECT_EQ(0, SignedMod32(std::numeric_limits::max(), 1)); TRACED_FORRANGE(int32_t, i, 0, 50) { EXPECT_EQ(0, SignedMod32(i, 0)); TRACED_FORRANGE(int32_t, j, 1, i) { EXPECT_EQ(0, SignedMod32(j, j)); EXPECT_EQ(i % j, SignedMod32(i, j)); EXPECT_EQ(i % j, SignedMod32(i, -j)); } } } TEST(Bits, UnsignedAddOverflow32) { uint32_t val = 0; EXPECT_FALSE(UnsignedAddOverflow32(0, 0, &val)); EXPECT_EQ(0u, val); EXPECT_TRUE( UnsignedAddOverflow32(std::numeric_limits::max(), 1u, &val)); EXPECT_EQ(std::numeric_limits::min(), val); EXPECT_TRUE(UnsignedAddOverflow32(std::numeric_limits::max(), std::numeric_limits::max(), &val)); TRACED_FORRANGE(uint32_t, i, 1, 50) { TRACED_FORRANGE(uint32_t, j, 1, i) { EXPECT_FALSE(UnsignedAddOverflow32(i, j, &val)); EXPECT_EQ(i + j, val); } } } TEST(Bits, UnsignedDiv32) { TRACED_FORRANGE(uint32_t, i, 0, 50) { EXPECT_EQ(0u, UnsignedDiv32(i, 0)); TRACED_FORRANGE(uint32_t, j, i + 1, 100) { EXPECT_EQ(1u, UnsignedDiv32(j, j)); EXPECT_EQ(i / j, UnsignedDiv32(i, j)); } } } TEST(Bits, UnsignedMod32) { TRACED_FORRANGE(uint32_t, i, 0, 50) { EXPECT_EQ(0u, UnsignedMod32(i, 0)); TRACED_FORRANGE(uint32_t, j, i + 1, 100) { EXPECT_EQ(0u, UnsignedMod32(j, j)); EXPECT_EQ(i % j, UnsignedMod32(i, j)); } } } } // namespace bits } // namespace base } // namespace v8