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cobalt / cobalt / 63c7ad499be49ef959b3b1c5ea3f48491aa033d3 / . / src / v8 / src / codegen / arm64 / utils-arm64.cc
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// Copyright 2013 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.
#if V8_TARGET_ARCH_ARM64
#include "src/codegen/arm64/utils-arm64.h"
namespace v8 {
namespace internal {
#define __ assm->
uint32_t float_sign(float val) {
uint32_t bits = bit_cast<uint32_t>(val);
return unsigned_bitextract_32(31, 31, bits);
}
uint32_t float_exp(float val) {
uint32_t bits = bit_cast<uint32_t>(val);
return unsigned_bitextract_32(30, 23, bits);
}
uint32_t float_mantissa(float val) {
uint32_t bits = bit_cast<uint32_t>(val);
return unsigned_bitextract_32(22, 0, bits);
}
uint32_t double_sign(double val) {
uint64_t bits = bit_cast<uint64_t>(val);
return static_cast<uint32_t>(unsigned_bitextract_64(63, 63, bits));
}
uint32_t double_exp(double val) {
uint64_t bits = bit_cast<uint64_t>(val);
return static_cast<uint32_t>(unsigned_bitextract_64(62, 52, bits));
}
uint64_t double_mantissa(double val) {
uint64_t bits = bit_cast<uint64_t>(val);
return unsigned_bitextract_64(51, 0, bits);
}
float float_pack(uint32_t sign, uint32_t exp, uint32_t mantissa) {
uint32_t bits = sign << kFloatExponentBits | exp;
return bit_cast<float>((bits << kFloatMantissaBits) | mantissa);
}
double double_pack(uint64_t sign, uint64_t exp, uint64_t mantissa) {
uint64_t bits = sign << kDoubleExponentBits | exp;
return bit_cast<double>((bits << kDoubleMantissaBits) | mantissa);
}
int float16classify(float16 value) {
const uint16_t exponent_max = (1 << kFloat16ExponentBits) - 1;
const uint16_t exponent_mask = exponent_max << kFloat16MantissaBits;
const uint16_t mantissa_mask = (1 << kFloat16MantissaBits) - 1;
const uint16_t exponent = (value & exponent_mask) >> kFloat16MantissaBits;
const uint16_t mantissa = value & mantissa_mask;
if (exponent == 0) {
if (mantissa == 0) {
return FP_ZERO;
}
return FP_SUBNORMAL;
} else if (exponent == exponent_max) {
if (mantissa == 0) {
return FP_INFINITE;
}
return FP_NAN;
}
return FP_NORMAL;
}
int CountLeadingZeros(uint64_t value, int width) {
DCHECK(base::bits::IsPowerOfTwo(width) && (width <= 64));
if (value == 0) {
return width;
}
return base::bits::CountLeadingZeros64(value << (64 - width));
}
int CountLeadingSignBits(int64_t value, int width) {
DCHECK(base::bits::IsPowerOfTwo(width) && (width <= 64));
if (value >= 0) {
return CountLeadingZeros(value, width) - 1;
} else {
return CountLeadingZeros(~value, width) - 1;
}
}
int CountTrailingZeros(uint64_t value, int width) {
DCHECK((width == 32) || (width == 64));
if (width == 64) {
return static_cast<int>(base::bits::CountTrailingZeros64(value));
}
return static_cast<int>(base::bits::CountTrailingZeros32(
static_cast<uint32_t>(value & 0xFFFFFFFFF)));
}
int CountSetBits(uint64_t value, int width) {
DCHECK((width == 32) || (width == 64));
if (width == 64) {
return static_cast<int>(base::bits::CountPopulation(value));
}
return static_cast<int>(
base::bits::CountPopulation(static_cast<uint32_t>(value & 0xFFFFFFFFF)));
}
int LowestSetBitPosition(uint64_t value) {
DCHECK_NE(value, 0U);
return CountTrailingZeros(value, 64) + 1;
}
int HighestSetBitPosition(uint64_t value) {
DCHECK_NE(value, 0U);
return 63 - CountLeadingZeros(value, 64);
}
uint64_t LargestPowerOf2Divisor(uint64_t value) {
return value & (-(int64_t)value);
}
int MaskToBit(uint64_t mask) {
DCHECK_EQ(CountSetBits(mask, 64), 1);
return CountTrailingZeros(mask, 64);
}
#undef __
} // namespace internal
} // namespace v8
#endif // V8_TARGET_ARCH_ARM64