gecko-dev/dom/media/doctor/RollingNumber.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef mozilla_RollingNumber_h_
#define mozilla_RollingNumber_h_
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include <limits>
namespace mozilla {
// Unsigned number suited to index elements in a never-ending queue, as
// order-comparison behaves nicely around the overflow.
//
// Additive operators work the same as for the underlying value type, but
// expect "small" jumps, as should normally happen when manipulating indices.
//
// Comparison functions are different, they keep the ordering based on the
// distance between numbers, modulo the value type range:
// If the distance is less than half the range of the value type, the usual
// ordering stays.
// 0 < 1, 2^23 < 2^24
// However if the distance is more than half the range, we assume that we are
// continuing along the queue, and therefore consider the smaller number to
// actually be greater!
// uint(-1) < 0.
//
// The expected usage is to always work on nearby rolling numbers: slowly
// incrementing/decrementing them, and translating&comparing them within a
// small window.
// To enforce this usage during development, debug-build assertions catch API
// calls involving distances of more than a *quarter* of the type range.
// In non-debug builds, all APIs will still work as consistently as possible
// without crashing, but performing operations on "distant" nunbers could lead
// to unexpected results.
template <typename T>
class RollingNumber {
static_assert(!std::numeric_limits<T>::is_signed,
"RollingNumber only accepts unsigned number types");
public:
using ValueType = T;
RollingNumber() : mIndex(0) {}
explicit RollingNumber(ValueType aIndex) : mIndex(aIndex) {}
RollingNumber(const RollingNumber&) = default;
RollingNumber& operator=(const RollingNumber&) = default;
ValueType Value() const { return mIndex; }
// Normal increments/decrements.
RollingNumber& operator++() {
++mIndex;
return *this;
}
RollingNumber operator++(int) { return RollingNumber{mIndex++}; }
RollingNumber& operator--() {
--mIndex;
return *this;
}
RollingNumber operator--(int) { return RollingNumber{mIndex--}; }
RollingNumber& operator+=(const ValueType& aIncrement) {
MOZ_ASSERT(aIncrement <= MaxDiff);
mIndex += aIncrement;
return *this;
}
RollingNumber operator+(const ValueType& aIncrement) const {
RollingNumber n = *this;
return n += aIncrement;
}
RollingNumber& operator-=(const ValueType& aDecrement) {
MOZ_ASSERT(aDecrement <= MaxDiff);
mIndex -= aDecrement;
return *this;
}
// Translate a RollingNumber by a negative value.
RollingNumber operator-(const ValueType& aDecrement) const {
RollingNumber n = *this;
return n -= aDecrement;
}
// Distance between two RollingNumbers, giving a value.
ValueType operator-(const RollingNumber& aOther) const {
ValueType diff = mIndex - aOther.mIndex;
MOZ_ASSERT(diff <= MaxDiff);
return diff;
}
// Normal (in)equality operators.
bool operator==(const RollingNumber& aOther) const {
return mIndex == aOther.mIndex;
}
bool operator!=(const RollingNumber& aOther) const {
return !(*this == aOther);
}
// Modified comparison operators.
bool operator<(const RollingNumber& aOther) const {
const T& a = mIndex;
const T& b = aOther.mIndex;
// static_cast needed because of possible integer promotion
// (e.g., from uint8_t to int, which would make the test useless).
const bool lessThanOther = static_cast<ValueType>(a - b) > MidWay;
MOZ_ASSERT((lessThanOther ? (b - a) : (a - b)) <= MaxDiff);
return lessThanOther;
}
bool operator<=(const RollingNumber& aOther) const {
const T& a = mIndex;
const T& b = aOther.mIndex;
const bool lessishThanOther = static_cast<ValueType>(b - a) <= MidWay;
MOZ_ASSERT((lessishThanOther ? (b - a) : (a - b)) <= MaxDiff);
return lessishThanOther;
}
bool operator>=(const RollingNumber& aOther) const {
const T& a = mIndex;
const T& b = aOther.mIndex;
const bool greaterishThanOther = static_cast<ValueType>(a - b) <= MidWay;
MOZ_ASSERT((greaterishThanOther ? (a - b) : (b - a)) <= MaxDiff);
return greaterishThanOther;
}
bool operator>(const RollingNumber& aOther) const {
const T& a = mIndex;
const T& b = aOther.mIndex;
const bool greaterThanOther = static_cast<ValueType>(b - a) > MidWay;
MOZ_ASSERT((greaterThanOther ? (a - b) : (b - a)) <= MaxDiff);
return greaterThanOther;
}
private:
// MidWay is used to split the type range in two, to decide how two numbers
// are ordered.
static const T MidWay = std::numeric_limits<T>::max() / 2;
#ifdef DEBUG
// MaxDiff is the expected maximum difference between two numbers, either
// during comparisons, or when adding/subtracting.
// This is only used during debugging, to highlight algorithmic issues.
static const T MaxDiff = std::numeric_limits<T>::max() / 4;
#endif
ValueType mIndex;
};
} // namespace mozilla
#endif // mozilla_RollingNumber_h_