third_party/v8/src/base/bits.cc - cobalt - 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 "src/base/bits.h"

 #include <limits>

 #include "src/base/logging.h"

 namespace v8 {
 namespace base {
 namespace bits {

 uint32_t RoundUpToPowerOfTwo32(uint32_t value) {
   DCHECK_LE(value, uint32_t{1} << 31);
   if (value) --value;
 // Use computation based on leading zeros if we have compiler support for that.
 #if V8_HAS_BUILTIN_CLZ || V8_CC_MSVC
   return 1u << (32 - CountLeadingZeros(value));
 #else
   value |= value >> 1;
   value |= value >> 2;
   value |= value >> 4;
   value |= value >> 8;
   value |= value >> 16;
   return value + 1;
 #endif
 }

 uint64_t RoundUpToPowerOfTwo64(uint64_t value) {
   DCHECK_LE(value, uint64_t{1} << 63);
   if (value) --value;
 // Use computation based on leading zeros if we have compiler support for that.
 #if V8_HAS_BUILTIN_CLZ
   return uint64_t{1} << (64 - CountLeadingZeros(value));
 #else
   value |= value >> 1;
   value |= value >> 2;
   value |= value >> 4;
   value |= value >> 8;
   value |= value >> 16;
   value |= value >> 32;
   return value + 1;
 #endif
 }


 int32_t SignedMulHigh32(int32_t lhs, int32_t rhs) {
   int64_t const value = static_cast<int64_t>(lhs) * static_cast<int64_t>(rhs);
   return bit_cast<int32_t, uint32_t>(bit_cast<uint64_t>(value) >> 32u);
 }


 int32_t SignedMulHighAndAdd32(int32_t lhs, int32_t rhs, int32_t acc) {
   return bit_cast<int32_t>(bit_cast<uint32_t>(acc) +
                            bit_cast<uint32_t>(SignedMulHigh32(lhs, rhs)));
 }


 int32_t SignedDiv32(int32_t lhs, int32_t rhs) {
   if (rhs == 0) return 0;
   if (rhs == -1) return lhs == std::numeric_limits<int32_t>::min() ? lhs : -lhs;
   return lhs / rhs;
 }


 int32_t SignedMod32(int32_t lhs, int32_t rhs) {
   if (rhs == 0 || rhs == -1) return 0;
   return lhs % rhs;
 }

 int64_t SignedSaturatedAdd64(int64_t lhs, int64_t rhs) {
   using limits = std::numeric_limits<int64_t>;
   // Underflow if {lhs + rhs < min}. In that case, return {min}.
   if (rhs < 0 && lhs < limits::min() - rhs) return limits::min();
   // Overflow if {lhs + rhs > max}. In that case, return {max}.
   if (rhs >= 0 && lhs > limits::max() - rhs) return limits::max();
   return lhs + rhs;
 }

 int64_t SignedSaturatedSub64(int64_t lhs, int64_t rhs) {
   using limits = std::numeric_limits<int64_t>;
   // Underflow if {lhs - rhs < min}. In that case, return {min}.
   if (rhs > 0 && lhs < limits::min() + rhs) return limits::min();
   // Overflow if {lhs - rhs > max}. In that case, return {max}.
   if (rhs <= 0 && lhs > limits::max() + rhs) return limits::max();
   return lhs - rhs;
 }

 bool SignedMulOverflow32(int32_t lhs, int32_t rhs, int32_t* val) {
   // Compute the result as {int64_t}, then check for overflow.
   int64_t result = int64_t{lhs} * int64_t{rhs};
   *val = static_cast<int32_t>(result);
   using limits = std::numeric_limits<int32_t>;
   return result < limits::min() || result > limits::max();
 }

 }  // namespace bits
 }  // namespace base
 }  // 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 "src/base/bits.h"

	#include <limits>

	#include "src/base/logging.h"

	namespace v8 {
	namespace base {
	namespace bits {

	uint32_t RoundUpToPowerOfTwo32(uint32_t value) {
	DCHECK_LE(value, uint32_t{1} << 31);
	if (value) --value;
	// Use computation based on leading zeros if we have compiler support for that.
	#if V8_HAS_BUILTIN_CLZ \|\| V8_CC_MSVC
	return 1u << (32 - CountLeadingZeros(value));
	#else
	value \|= value >> 1;
	value \|= value >> 2;
	value \|= value >> 4;
	value \|= value >> 8;
	value \|= value >> 16;
	return value + 1;
	#endif
	}

	uint64_t RoundUpToPowerOfTwo64(uint64_t value) {
	DCHECK_LE(value, uint64_t{1} << 63);
	if (value) --value;
	// Use computation based on leading zeros if we have compiler support for that.
	#if V8_HAS_BUILTIN_CLZ
	return uint64_t{1} << (64 - CountLeadingZeros(value));
	#else
	value \|= value >> 1;
	value \|= value >> 2;
	value \|= value >> 4;
	value \|= value >> 8;
	value \|= value >> 16;
	value \|= value >> 32;
	return value + 1;
	#endif
	}


	int32_t SignedMulHigh32(int32_t lhs, int32_t rhs) {
	int64_t const value = static_cast<int64_t>(lhs) * static_cast<int64_t>(rhs);
	return bit_cast<int32_t, uint32_t>(bit_cast<uint64_t>(value) >> 32u);
	}


	int32_t SignedMulHighAndAdd32(int32_t lhs, int32_t rhs, int32_t acc) {
	return bit_cast<int32_t>(bit_cast<uint32_t>(acc) +
	bit_cast<uint32_t>(SignedMulHigh32(lhs, rhs)));
	}


	int32_t SignedDiv32(int32_t lhs, int32_t rhs) {
	if (rhs == 0) return 0;
	if (rhs == -1) return lhs == std::numeric_limits<int32_t>::min() ? lhs : -lhs;
	return lhs / rhs;
	}


	int32_t SignedMod32(int32_t lhs, int32_t rhs) {
	if (rhs == 0 \|\| rhs == -1) return 0;
	return lhs % rhs;
	}

	int64_t SignedSaturatedAdd64(int64_t lhs, int64_t rhs) {
	using limits = std::numeric_limits<int64_t>;
	// Underflow if {lhs + rhs < min}. In that case, return {min}.
	if (rhs < 0 && lhs < limits::min() - rhs) return limits::min();
	// Overflow if {lhs + rhs > max}. In that case, return {max}.
	if (rhs >= 0 && lhs > limits::max() - rhs) return limits::max();
	return lhs + rhs;
	}

	int64_t SignedSaturatedSub64(int64_t lhs, int64_t rhs) {
	using limits = std::numeric_limits<int64_t>;
	// Underflow if {lhs - rhs < min}. In that case, return {min}.
	if (rhs > 0 && lhs < limits::min() + rhs) return limits::min();
	// Overflow if {lhs - rhs > max}. In that case, return {max}.
	if (rhs <= 0 && lhs > limits::max() + rhs) return limits::max();
	return lhs - rhs;
	}

	bool SignedMulOverflow32(int32_t lhs, int32_t rhs, int32_t* val) {
	// Compute the result as {int64_t}, then check for overflow.
	int64_t result = int64_t{lhs} * int64_t{rhs};
	*val = static_cast<int32_t>(result);
	using limits = std::numeric_limits<int32_t>;
	return result < limits::min() \|\| result > limits::max();
	}

	} // namespace bits
	} // namespace base
	} // namespace v8