249 lines
7.9 KiB
C
249 lines
7.9 KiB
C
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//===- BranchProbability.h - Branch Probability Wrapper ---------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Definition of BranchProbability shared by IR and Machine Instructions.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_BRANCHPROBABILITY_H
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#define LLVM_SUPPORT_BRANCHPROBABILITY_H
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#include "llvm/Support/DataTypes.h"
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#include <algorithm>
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#include <cassert>
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#include <climits>
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#include <numeric>
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namespace llvm {
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class raw_ostream;
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// This class represents Branch Probability as a non-negative fraction that is
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// no greater than 1. It uses a fixed-point-like implementation, in which the
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// denominator is always a constant value (here we use 1<<31 for maximum
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// precision).
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class BranchProbability {
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// Numerator
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uint32_t N;
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// Denominator, which is a constant value.
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static constexpr uint32_t D = 1u << 31;
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static constexpr uint32_t UnknownN = UINT32_MAX;
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// Construct a BranchProbability with only numerator assuming the denominator
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// is 1<<31. For internal use only.
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explicit BranchProbability(uint32_t n) : N(n) {}
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public:
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BranchProbability() : N(UnknownN) {}
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BranchProbability(uint32_t Numerator, uint32_t Denominator);
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bool isZero() const { return N == 0; }
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bool isUnknown() const { return N == UnknownN; }
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static BranchProbability getZero() { return BranchProbability(0); }
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static BranchProbability getOne() { return BranchProbability(D); }
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static BranchProbability getUnknown() { return BranchProbability(UnknownN); }
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// Create a BranchProbability object with the given numerator and 1<<31
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// as denominator.
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static BranchProbability getRaw(uint32_t N) { return BranchProbability(N); }
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// Create a BranchProbability object from 64-bit integers.
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static BranchProbability getBranchProbability(uint64_t Numerator,
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uint64_t Denominator);
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// Normalize given probabilties so that the sum of them becomes approximate
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// one.
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template <class ProbabilityIter>
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static void normalizeProbabilities(ProbabilityIter Begin,
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ProbabilityIter End);
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uint32_t getNumerator() const { return N; }
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static uint32_t getDenominator() { return D; }
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// Return (1 - Probability).
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BranchProbability getCompl() const { return BranchProbability(D - N); }
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raw_ostream &print(raw_ostream &OS) const;
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void dump() const;
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/// Scale a large integer.
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///
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/// Scales \c Num. Guarantees full precision. Returns the floor of the
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/// result.
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///
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/// \return \c Num times \c this.
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uint64_t scale(uint64_t Num) const;
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/// Scale a large integer by the inverse.
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///
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/// Scales \c Num by the inverse of \c this. Guarantees full precision.
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/// Returns the floor of the result.
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///
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/// \return \c Num divided by \c this.
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uint64_t scaleByInverse(uint64_t Num) const;
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BranchProbability &operator+=(BranchProbability RHS) {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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// Saturate the result in case of overflow.
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N = (uint64_t(N) + RHS.N > D) ? D : N + RHS.N;
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return *this;
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}
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BranchProbability &operator-=(BranchProbability RHS) {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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// Saturate the result in case of underflow.
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N = N < RHS.N ? 0 : N - RHS.N;
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return *this;
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}
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BranchProbability &operator*=(BranchProbability RHS) {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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N = (static_cast<uint64_t>(N) * RHS.N + D / 2) / D;
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return *this;
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}
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BranchProbability &operator*=(uint32_t RHS) {
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assert(N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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N = (uint64_t(N) * RHS > D) ? D : N * RHS;
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return *this;
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}
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BranchProbability &operator/=(BranchProbability RHS) {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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N = (static_cast<uint64_t>(N) * D + RHS.N / 2) / RHS.N;
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return *this;
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}
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BranchProbability &operator/=(uint32_t RHS) {
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assert(N != UnknownN &&
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"Unknown probability cannot participate in arithmetics.");
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assert(RHS > 0 && "The divider cannot be zero.");
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N /= RHS;
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return *this;
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}
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BranchProbability operator+(BranchProbability RHS) const {
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BranchProbability Prob(*this);
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Prob += RHS;
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return Prob;
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}
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BranchProbability operator-(BranchProbability RHS) const {
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BranchProbability Prob(*this);
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Prob -= RHS;
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return Prob;
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}
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BranchProbability operator*(BranchProbability RHS) const {
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BranchProbability Prob(*this);
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Prob *= RHS;
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return Prob;
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}
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BranchProbability operator*(uint32_t RHS) const {
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BranchProbability Prob(*this);
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Prob *= RHS;
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return Prob;
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}
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BranchProbability operator/(BranchProbability RHS) const {
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BranchProbability Prob(*this);
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Prob /= RHS;
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return Prob;
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}
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BranchProbability operator/(uint32_t RHS) const {
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BranchProbability Prob(*this);
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Prob /= RHS;
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return Prob;
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}
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bool operator==(BranchProbability RHS) const { return N == RHS.N; }
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bool operator!=(BranchProbability RHS) const { return !(*this == RHS); }
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bool operator<(BranchProbability RHS) const {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in comparisons.");
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return N < RHS.N;
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}
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bool operator>(BranchProbability RHS) const {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in comparisons.");
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return RHS < *this;
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}
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bool operator<=(BranchProbability RHS) const {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in comparisons.");
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return !(RHS < *this);
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}
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bool operator>=(BranchProbability RHS) const {
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assert(N != UnknownN && RHS.N != UnknownN &&
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"Unknown probability cannot participate in comparisons.");
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return !(*this < RHS);
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}
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};
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inline raw_ostream &operator<<(raw_ostream &OS, BranchProbability Prob) {
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return Prob.print(OS);
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}
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template <class ProbabilityIter>
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void BranchProbability::normalizeProbabilities(ProbabilityIter Begin,
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ProbabilityIter End) {
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if (Begin == End)
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return;
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unsigned UnknownProbCount = 0;
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uint64_t Sum = std::accumulate(Begin, End, uint64_t(0),
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[&](uint64_t S, const BranchProbability &BP) {
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if (!BP.isUnknown())
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return S + BP.N;
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UnknownProbCount++;
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return S;
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});
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if (UnknownProbCount > 0) {
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BranchProbability ProbForUnknown = BranchProbability::getZero();
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// If the sum of all known probabilities is less than one, evenly distribute
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// the complement of sum to unknown probabilities. Otherwise, set unknown
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// probabilities to zeros and continue to normalize known probabilities.
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if (Sum < BranchProbability::getDenominator())
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ProbForUnknown = BranchProbability::getRaw(
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(BranchProbability::getDenominator() - Sum) / UnknownProbCount);
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std::replace_if(Begin, End,
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[](const BranchProbability &BP) { return BP.isUnknown(); },
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ProbForUnknown);
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if (Sum <= BranchProbability::getDenominator())
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return;
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}
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if (Sum == 0) {
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BranchProbability BP(1, std::distance(Begin, End));
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std::fill(Begin, End, BP);
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return;
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}
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for (auto I = Begin; I != End; ++I)
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I->N = (I->N * uint64_t(D) + Sum / 2) / Sum;
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}
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}
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#endif
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