libicu/cts_headers/double-conversion-ieee.h

*0e209d39SAndroid Build Coastguard Worker// © 2018 and later: Unicode, Inc. and others.
*0e209d39SAndroid Build Coastguard Worker// License & terms of use: http://www.unicode.org/copyright.html
*0e209d39SAndroid Build Coastguard Worker//
*0e209d39SAndroid Build Coastguard Worker// From the double-conversion library. Original license:
*0e209d39SAndroid Build Coastguard Worker//
*0e209d39SAndroid Build Coastguard Worker// Copyright 2012 the V8 project authors. All rights reserved.
*0e209d39SAndroid Build Coastguard Worker// Redistribution and use in source and binary forms, with or without
*0e209d39SAndroid Build Coastguard Worker// modification, are permitted provided that the following conditions are
*0e209d39SAndroid Build Coastguard Worker// met:
*0e209d39SAndroid Build Coastguard Worker//
*0e209d39SAndroid Build Coastguard Worker//     * Redistributions of source code must retain the above copyright
*0e209d39SAndroid Build Coastguard Worker//       notice, this list of conditions and the following disclaimer.
*0e209d39SAndroid Build Coastguard Worker//     * Redistributions in binary form must reproduce the above
*0e209d39SAndroid Build Coastguard Worker//       copyright notice, this list of conditions and the following
*0e209d39SAndroid Build Coastguard Worker//       disclaimer in the documentation and/or other materials provided
*0e209d39SAndroid Build Coastguard Worker//       with the distribution.
*0e209d39SAndroid Build Coastguard Worker//     * Neither the name of Google Inc. nor the names of its
*0e209d39SAndroid Build Coastguard Worker//       contributors may be used to endorse or promote products derived
*0e209d39SAndroid Build Coastguard Worker//       from this software without specific prior written permission.
*0e209d39SAndroid Build Coastguard Worker//
*0e209d39SAndroid Build Coastguard Worker// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
*0e209d39SAndroid Build Coastguard Worker// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
*0e209d39SAndroid Build Coastguard Worker// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
*0e209d39SAndroid Build Coastguard Worker// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
*0e209d39SAndroid Build Coastguard Worker// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
*0e209d39SAndroid Build Coastguard Worker// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
*0e209d39SAndroid Build Coastguard Worker// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
*0e209d39SAndroid Build Coastguard Worker// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
*0e209d39SAndroid Build Coastguard Worker// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
*0e209d39SAndroid Build Coastguard Worker// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
*0e209d39SAndroid Build Coastguard Worker// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// ICU PATCH: ifdef around UCONFIG_NO_FORMATTING
*0e209d39SAndroid Build Coastguard Worker#include "unicode/utypes.h"
*0e209d39SAndroid Build Coastguard Worker#if !UCONFIG_NO_FORMATTING
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker#ifndef DOUBLE_CONVERSION_DOUBLE_H_
*0e209d39SAndroid Build Coastguard Worker#define DOUBLE_CONVERSION_DOUBLE_H_
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// ICU PATCH: Customize header file paths for ICU.
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker#include "double-conversion-diy-fp.h"
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// ICU PATCH: Wrap in ICU namespace
*0e209d39SAndroid Build Coastguard WorkerU_NAMESPACE_BEGIN
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Workernamespace double_conversion {
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// We assume that doubles and uint64_t have the same endianness.
*0e209d39SAndroid Build Coastguard Workerstatic uint64_t double_to_uint64(double d) { return BitCast<uint64_t>(d); }
*0e209d39SAndroid Build Coastguard Workerstatic double uint64_to_double(uint64_t d64) { return BitCast<double>(d64); }
*0e209d39SAndroid Build Coastguard Workerstatic uint32_t float_to_uint32(float f) { return BitCast<uint32_t>(f); }
*0e209d39SAndroid Build Coastguard Workerstatic float uint32_to_float(uint32_t d32) { return BitCast<float>(d32); }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// Helper functions for doubles.
*0e209d39SAndroid Build Coastguard Workerclass Double {
*0e209d39SAndroid Build Coastguard Worker public:
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kSignMask = DOUBLE_CONVERSION_UINT64_2PART_C(0x80000000, 00000000);
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kExponentMask = DOUBLE_CONVERSION_UINT64_2PART_C(0x7FF00000, 00000000);
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kSignificandMask = DOUBLE_CONVERSION_UINT64_2PART_C(0x000FFFFF, FFFFFFFF);
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kHiddenBit = DOUBLE_CONVERSION_UINT64_2PART_C(0x00100000, 00000000);
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kQuietNanBit = DOUBLE_CONVERSION_UINT64_2PART_C(0x00080000, 00000000);
*0e209d39SAndroid Build Coastguard Worker  static const int kPhysicalSignificandSize = 52;  // Excludes the hidden bit.
*0e209d39SAndroid Build Coastguard Worker  static const int kSignificandSize = 53;
*0e209d39SAndroid Build Coastguard Worker  static const int kExponentBias = 0x3FF + kPhysicalSignificandSize;
*0e209d39SAndroid Build Coastguard Worker  static const int kMaxExponent = 0x7FF - kExponentBias;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  Double() : d64_(0) {}
*0e209d39SAndroid Build Coastguard Worker  explicit Double(double d) : d64_(double_to_uint64(d)) {}
*0e209d39SAndroid Build Coastguard Worker  explicit Double(uint64_t d64) : d64_(d64) {}
*0e209d39SAndroid Build Coastguard Worker  explicit Double(DiyFp diy_fp)
*0e209d39SAndroid Build Coastguard Worker    : d64_(DiyFpToUint64(diy_fp)) {}
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // The value encoded by this Double must be greater or equal to +0.0.
*0e209d39SAndroid Build Coastguard Worker  // It must not be special (infinity, or NaN).
*0e209d39SAndroid Build Coastguard Worker  DiyFp AsDiyFp() const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(Sign() > 0);
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(!IsSpecial());
*0e209d39SAndroid Build Coastguard Worker    return DiyFp(Significand(), Exponent());
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // The value encoded by this Double must be strictly greater than 0.
*0e209d39SAndroid Build Coastguard Worker  DiyFp AsNormalizedDiyFp() const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(value() > 0.0);
*0e209d39SAndroid Build Coastguard Worker    uint64_t f = Significand();
*0e209d39SAndroid Build Coastguard Worker    int e = Exponent();
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker    // The current double could be a denormal.
*0e209d39SAndroid Build Coastguard Worker    while ((f & kHiddenBit) == 0) {
*0e209d39SAndroid Build Coastguard Worker      f <<= 1;
*0e209d39SAndroid Build Coastguard Worker      e--;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    // Do the final shifts in one go.
*0e209d39SAndroid Build Coastguard Worker    f <<= DiyFp::kSignificandSize - kSignificandSize;
*0e209d39SAndroid Build Coastguard Worker    e -= DiyFp::kSignificandSize - kSignificandSize;
*0e209d39SAndroid Build Coastguard Worker    return DiyFp(f, e);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns the double's bit as uint64.
*0e209d39SAndroid Build Coastguard Worker  uint64_t AsUint64() const {
*0e209d39SAndroid Build Coastguard Worker    return d64_;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns the next greater double. Returns +infinity on input +infinity.
*0e209d39SAndroid Build Coastguard Worker  double NextDouble() const {
*0e209d39SAndroid Build Coastguard Worker    if (d64_ == kInfinity) return Double(kInfinity).value();
*0e209d39SAndroid Build Coastguard Worker    if (Sign() < 0 && Significand() == 0) {
*0e209d39SAndroid Build Coastguard Worker      // -0.0
*0e209d39SAndroid Build Coastguard Worker      return 0.0;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    if (Sign() < 0) {
*0e209d39SAndroid Build Coastguard Worker      return Double(d64_ - 1).value();
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      return Double(d64_ + 1).value();
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  double PreviousDouble() const {
*0e209d39SAndroid Build Coastguard Worker    if (d64_ == (kInfinity | kSignMask)) return -Infinity();
*0e209d39SAndroid Build Coastguard Worker    if (Sign() < 0) {
*0e209d39SAndroid Build Coastguard Worker      return Double(d64_ + 1).value();
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      if (Significand() == 0) return -0.0;
*0e209d39SAndroid Build Coastguard Worker      return Double(d64_ - 1).value();
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  int Exponent() const {
*0e209d39SAndroid Build Coastguard Worker    if (IsDenormal()) return kDenormalExponent;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    int biased_e =
*0e209d39SAndroid Build Coastguard Worker        static_cast<int>((d64 & kExponentMask) >> kPhysicalSignificandSize);
*0e209d39SAndroid Build Coastguard Worker    return biased_e - kExponentBias;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  uint64_t Significand() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    uint64_t significand = d64 & kSignificandMask;
*0e209d39SAndroid Build Coastguard Worker    if (!IsDenormal()) {
*0e209d39SAndroid Build Coastguard Worker      return significand + kHiddenBit;
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      return significand;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns true if the double is a denormal.
*0e209d39SAndroid Build Coastguard Worker  bool IsDenormal() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    return (d64 & kExponentMask) == 0;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // We consider denormals not to be special.
*0e209d39SAndroid Build Coastguard Worker  // Hence only Infinity and NaN are special.
*0e209d39SAndroid Build Coastguard Worker  bool IsSpecial() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    return (d64 & kExponentMask) == kExponentMask;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsNan() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    return ((d64 & kExponentMask) == kExponentMask) &&
*0e209d39SAndroid Build Coastguard Worker        ((d64 & kSignificandMask) != 0);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsQuietNan() const {
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint64() & kQuietNanBit) == 0);
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint64() & kQuietNanBit) != 0);
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsSignalingNan() const {
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint64() & kQuietNanBit) != 0);
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint64() & kQuietNanBit) == 0);
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsInfinite() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    return ((d64 & kExponentMask) == kExponentMask) &&
*0e209d39SAndroid Build Coastguard Worker        ((d64 & kSignificandMask) == 0);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  int Sign() const {
*0e209d39SAndroid Build Coastguard Worker    uint64_t d64 = AsUint64();
*0e209d39SAndroid Build Coastguard Worker    return (d64 & kSignMask) == 0? 1: -1;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Precondition: the value encoded by this Double must be greater or equal
*0e209d39SAndroid Build Coastguard Worker  // than +0.0.
*0e209d39SAndroid Build Coastguard Worker  DiyFp UpperBoundary() const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(Sign() > 0);
*0e209d39SAndroid Build Coastguard Worker    return DiyFp(Significand() * 2 + 1, Exponent() - 1);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Computes the two boundaries of this.
*0e209d39SAndroid Build Coastguard Worker  // The bigger boundary (m_plus) is normalized. The lower boundary has the same
*0e209d39SAndroid Build Coastguard Worker  // exponent as m_plus.
*0e209d39SAndroid Build Coastguard Worker  // Precondition: the value encoded by this Double must be greater than 0.
*0e209d39SAndroid Build Coastguard Worker  void NormalizedBoundaries(DiyFp* out_m_minus, DiyFp* out_m_plus) const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(value() > 0.0);
*0e209d39SAndroid Build Coastguard Worker    DiyFp v = this->AsDiyFp();
*0e209d39SAndroid Build Coastguard Worker    DiyFp m_plus = DiyFp::Normalize(DiyFp((v.f() << 1) + 1, v.e() - 1));
*0e209d39SAndroid Build Coastguard Worker    DiyFp m_minus;
*0e209d39SAndroid Build Coastguard Worker    if (LowerBoundaryIsCloser()) {
*0e209d39SAndroid Build Coastguard Worker      m_minus = DiyFp((v.f() << 2) - 1, v.e() - 2);
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      m_minus = DiyFp((v.f() << 1) - 1, v.e() - 1);
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    m_minus.set_f(m_minus.f() << (m_minus.e() - m_plus.e()));
*0e209d39SAndroid Build Coastguard Worker    m_minus.set_e(m_plus.e());
*0e209d39SAndroid Build Coastguard Worker    *out_m_plus = m_plus;
*0e209d39SAndroid Build Coastguard Worker    *out_m_minus = m_minus;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool LowerBoundaryIsCloser() const {
*0e209d39SAndroid Build Coastguard Worker    // The boundary is closer if the significand is of the form f == 2^p-1 then
*0e209d39SAndroid Build Coastguard Worker    // the lower boundary is closer.
*0e209d39SAndroid Build Coastguard Worker    // Think of v = 1000e10 and v- = 9999e9.
*0e209d39SAndroid Build Coastguard Worker    // Then the boundary (== (v - v-)/2) is not just at a distance of 1e9 but
*0e209d39SAndroid Build Coastguard Worker    // at a distance of 1e8.
*0e209d39SAndroid Build Coastguard Worker    // The only exception is for the smallest normal: the largest denormal is
*0e209d39SAndroid Build Coastguard Worker    // at the same distance as its successor.
*0e209d39SAndroid Build Coastguard Worker    // Note: denormals have the same exponent as the smallest normals.
*0e209d39SAndroid Build Coastguard Worker    bool physical_significand_is_zero = ((AsUint64() & kSignificandMask) == 0);
*0e209d39SAndroid Build Coastguard Worker    return physical_significand_is_zero && (Exponent() != kDenormalExponent);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  double value() const { return uint64_to_double(d64_); }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns the significand size for a given order of magnitude.
*0e209d39SAndroid Build Coastguard Worker  // If v = f*2^e with 2^p-1 <= f <= 2^p then p+e is v's order of magnitude.
*0e209d39SAndroid Build Coastguard Worker  // This function returns the number of significant binary digits v will have
*0e209d39SAndroid Build Coastguard Worker  // once it's encoded into a double. In almost all cases this is equal to
*0e209d39SAndroid Build Coastguard Worker  // kSignificandSize. The only exceptions are denormals. They start with
*0e209d39SAndroid Build Coastguard Worker  // leading zeroes and their effective significand-size is hence smaller.
*0e209d39SAndroid Build Coastguard Worker  static int SignificandSizeForOrderOfMagnitude(int order) {
*0e209d39SAndroid Build Coastguard Worker    if (order >= (kDenormalExponent + kSignificandSize)) {
*0e209d39SAndroid Build Coastguard Worker      return kSignificandSize;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    if (order <= kDenormalExponent) return 0;
*0e209d39SAndroid Build Coastguard Worker    return order - kDenormalExponent;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  static double Infinity() {
*0e209d39SAndroid Build Coastguard Worker    return Double(kInfinity).value();
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  static double NaN() {
*0e209d39SAndroid Build Coastguard Worker    return Double(kNaN).value();
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker private:
*0e209d39SAndroid Build Coastguard Worker  static const int kDenormalExponent = -kExponentBias + 1;
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kInfinity = DOUBLE_CONVERSION_UINT64_2PART_C(0x7FF00000, 00000000);
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kNaN = DOUBLE_CONVERSION_UINT64_2PART_C(0x7FF7FFFF, FFFFFFFF);
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker  static const uint64_t kNaN = DOUBLE_CONVERSION_UINT64_2PART_C(0x7FF80000, 00000000);
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  const uint64_t d64_;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  static uint64_t DiyFpToUint64(DiyFp diy_fp) {
*0e209d39SAndroid Build Coastguard Worker    uint64_t significand = diy_fp.f();
*0e209d39SAndroid Build Coastguard Worker    int exponent = diy_fp.e();
*0e209d39SAndroid Build Coastguard Worker    while (significand > kHiddenBit + kSignificandMask) {
*0e209d39SAndroid Build Coastguard Worker      significand >>= 1;
*0e209d39SAndroid Build Coastguard Worker      exponent++;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    if (exponent >= kMaxExponent) {
*0e209d39SAndroid Build Coastguard Worker      return kInfinity;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    if (exponent < kDenormalExponent) {
*0e209d39SAndroid Build Coastguard Worker      return 0;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    while (exponent > kDenormalExponent && (significand & kHiddenBit) == 0) {
*0e209d39SAndroid Build Coastguard Worker      significand <<= 1;
*0e209d39SAndroid Build Coastguard Worker      exponent--;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    uint64_t biased_exponent;
*0e209d39SAndroid Build Coastguard Worker    if (exponent == kDenormalExponent && (significand & kHiddenBit) == 0) {
*0e209d39SAndroid Build Coastguard Worker      biased_exponent = 0;
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      biased_exponent = static_cast<uint64_t>(exponent + kExponentBias);
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    return (significand & kSignificandMask) |
*0e209d39SAndroid Build Coastguard Worker        (biased_exponent << kPhysicalSignificandSize);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  DOUBLE_CONVERSION_DISALLOW_COPY_AND_ASSIGN(Double);
*0e209d39SAndroid Build Coastguard Worker};
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Workerclass Single {
*0e209d39SAndroid Build Coastguard Worker public:
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kSignMask = 0x80000000;
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kExponentMask = 0x7F800000;
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kSignificandMask = 0x007FFFFF;
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kHiddenBit = 0x00800000;
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kQuietNanBit = 0x00400000;
*0e209d39SAndroid Build Coastguard Worker  static const int kPhysicalSignificandSize = 23;  // Excludes the hidden bit.
*0e209d39SAndroid Build Coastguard Worker  static const int kSignificandSize = 24;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  Single() : d32_(0) {}
*0e209d39SAndroid Build Coastguard Worker  explicit Single(float f) : d32_(float_to_uint32(f)) {}
*0e209d39SAndroid Build Coastguard Worker  explicit Single(uint32_t d32) : d32_(d32) {}
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // The value encoded by this Single must be greater or equal to +0.0.
*0e209d39SAndroid Build Coastguard Worker  // It must not be special (infinity, or NaN).
*0e209d39SAndroid Build Coastguard Worker  DiyFp AsDiyFp() const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(Sign() > 0);
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(!IsSpecial());
*0e209d39SAndroid Build Coastguard Worker    return DiyFp(Significand(), Exponent());
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns the single's bit as uint64.
*0e209d39SAndroid Build Coastguard Worker  uint32_t AsUint32() const {
*0e209d39SAndroid Build Coastguard Worker    return d32_;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  int Exponent() const {
*0e209d39SAndroid Build Coastguard Worker    if (IsDenormal()) return kDenormalExponent;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    int biased_e =
*0e209d39SAndroid Build Coastguard Worker        static_cast<int>((d32 & kExponentMask) >> kPhysicalSignificandSize);
*0e209d39SAndroid Build Coastguard Worker    return biased_e - kExponentBias;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  uint32_t Significand() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    uint32_t significand = d32 & kSignificandMask;
*0e209d39SAndroid Build Coastguard Worker    if (!IsDenormal()) {
*0e209d39SAndroid Build Coastguard Worker      return significand + kHiddenBit;
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      return significand;
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Returns true if the single is a denormal.
*0e209d39SAndroid Build Coastguard Worker  bool IsDenormal() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    return (d32 & kExponentMask) == 0;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // We consider denormals not to be special.
*0e209d39SAndroid Build Coastguard Worker  // Hence only Infinity and NaN are special.
*0e209d39SAndroid Build Coastguard Worker  bool IsSpecial() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    return (d32 & kExponentMask) == kExponentMask;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsNan() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    return ((d32 & kExponentMask) == kExponentMask) &&
*0e209d39SAndroid Build Coastguard Worker        ((d32 & kSignificandMask) != 0);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsQuietNan() const {
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint32() & kQuietNanBit) == 0);
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint32() & kQuietNanBit) != 0);
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsSignalingNan() const {
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint32() & kQuietNanBit) != 0);
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker    return IsNan() && ((AsUint32() & kQuietNanBit) == 0);
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool IsInfinite() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    return ((d32 & kExponentMask) == kExponentMask) &&
*0e209d39SAndroid Build Coastguard Worker        ((d32 & kSignificandMask) == 0);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  int Sign() const {
*0e209d39SAndroid Build Coastguard Worker    uint32_t d32 = AsUint32();
*0e209d39SAndroid Build Coastguard Worker    return (d32 & kSignMask) == 0? 1: -1;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Computes the two boundaries of this.
*0e209d39SAndroid Build Coastguard Worker  // The bigger boundary (m_plus) is normalized. The lower boundary has the same
*0e209d39SAndroid Build Coastguard Worker  // exponent as m_plus.
*0e209d39SAndroid Build Coastguard Worker  // Precondition: the value encoded by this Single must be greater than 0.
*0e209d39SAndroid Build Coastguard Worker  void NormalizedBoundaries(DiyFp* out_m_minus, DiyFp* out_m_plus) const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(value() > 0.0);
*0e209d39SAndroid Build Coastguard Worker    DiyFp v = this->AsDiyFp();
*0e209d39SAndroid Build Coastguard Worker    DiyFp m_plus = DiyFp::Normalize(DiyFp((v.f() << 1) + 1, v.e() - 1));
*0e209d39SAndroid Build Coastguard Worker    DiyFp m_minus;
*0e209d39SAndroid Build Coastguard Worker    if (LowerBoundaryIsCloser()) {
*0e209d39SAndroid Build Coastguard Worker      m_minus = DiyFp((v.f() << 2) - 1, v.e() - 2);
*0e209d39SAndroid Build Coastguard Worker    } else {
*0e209d39SAndroid Build Coastguard Worker      m_minus = DiyFp((v.f() << 1) - 1, v.e() - 1);
*0e209d39SAndroid Build Coastguard Worker    }
*0e209d39SAndroid Build Coastguard Worker    m_minus.set_f(m_minus.f() << (m_minus.e() - m_plus.e()));
*0e209d39SAndroid Build Coastguard Worker    m_minus.set_e(m_plus.e());
*0e209d39SAndroid Build Coastguard Worker    *out_m_plus = m_plus;
*0e209d39SAndroid Build Coastguard Worker    *out_m_minus = m_minus;
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  // Precondition: the value encoded by this Single must be greater or equal
*0e209d39SAndroid Build Coastguard Worker  // than +0.0.
*0e209d39SAndroid Build Coastguard Worker  DiyFp UpperBoundary() const {
*0e209d39SAndroid Build Coastguard Worker    DOUBLE_CONVERSION_ASSERT(Sign() > 0);
*0e209d39SAndroid Build Coastguard Worker    return DiyFp(Significand() * 2 + 1, Exponent() - 1);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  bool LowerBoundaryIsCloser() const {
*0e209d39SAndroid Build Coastguard Worker    // The boundary is closer if the significand is of the form f == 2^p-1 then
*0e209d39SAndroid Build Coastguard Worker    // the lower boundary is closer.
*0e209d39SAndroid Build Coastguard Worker    // Think of v = 1000e10 and v- = 9999e9.
*0e209d39SAndroid Build Coastguard Worker    // Then the boundary (== (v - v-)/2) is not just at a distance of 1e9 but
*0e209d39SAndroid Build Coastguard Worker    // at a distance of 1e8.
*0e209d39SAndroid Build Coastguard Worker    // The only exception is for the smallest normal: the largest denormal is
*0e209d39SAndroid Build Coastguard Worker    // at the same distance as its successor.
*0e209d39SAndroid Build Coastguard Worker    // Note: denormals have the same exponent as the smallest normals.
*0e209d39SAndroid Build Coastguard Worker    bool physical_significand_is_zero = ((AsUint32() & kSignificandMask) == 0);
*0e209d39SAndroid Build Coastguard Worker    return physical_significand_is_zero && (Exponent() != kDenormalExponent);
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  float value() const { return uint32_to_float(d32_); }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  static float Infinity() {
*0e209d39SAndroid Build Coastguard Worker    return Single(kInfinity).value();
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  static float NaN() {
*0e209d39SAndroid Build Coastguard Worker    return Single(kNaN).value();
*0e209d39SAndroid Build Coastguard Worker  }
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker private:
*0e209d39SAndroid Build Coastguard Worker  static const int kExponentBias = 0x7F + kPhysicalSignificandSize;
*0e209d39SAndroid Build Coastguard Worker  static const int kDenormalExponent = -kExponentBias + 1;
*0e209d39SAndroid Build Coastguard Worker  static const int kMaxExponent = 0xFF - kExponentBias;
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kInfinity = 0x7F800000;
*0e209d39SAndroid Build Coastguard Worker#if (defined(__mips__) && !defined(__mips_nan2008)) || defined(__hppa__)
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kNaN = 0x7FBFFFFF;
*0e209d39SAndroid Build Coastguard Worker#else
*0e209d39SAndroid Build Coastguard Worker  static const uint32_t kNaN = 0x7FC00000;
*0e209d39SAndroid Build Coastguard Worker#endif
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  const uint32_t d32_;
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker  DOUBLE_CONVERSION_DISALLOW_COPY_AND_ASSIGN(Single);
*0e209d39SAndroid Build Coastguard Worker};
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker}  // namespace double_conversion
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker// ICU PATCH: Close ICU namespace
*0e209d39SAndroid Build Coastguard WorkerU_NAMESPACE_END
*0e209d39SAndroid Build Coastguard Worker
*0e209d39SAndroid Build Coastguard Worker#endif  // DOUBLE_CONVERSION_DOUBLE_H_
*0e209d39SAndroid Build Coastguard Worker#endif // ICU PATCH: close #if !UCONFIG_NO_FORMATTING