/* 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 INTERVAL_H_ #define INTERVAL_H_ #include "nsTArray.h" #include namespace mozilla { template struct MP4Interval { MP4Interval() : start(0), end(0) {} MP4Interval(T aStart, T aEnd) : start(aStart), end(aEnd) { MOZ_ASSERT(aStart <= aEnd); } T Length() { return end - start; } MP4Interval Intersection(const MP4Interval& aOther) const { T s = start > aOther.start ? start : aOther.start; T e = end < aOther.end ? end : aOther.end; if (s > e) { return MP4Interval(); } return MP4Interval(s, e); } bool Contains(const MP4Interval& aOther) const { return aOther.start >= start && aOther.end <= end; } bool operator==(const MP4Interval& aOther) const { return start == aOther.start && end == aOther.end; } bool operator!=(const MP4Interval& aOther) const { return !(*this == aOther); } bool IsNull() const { return end == start; } MP4Interval Extents(const MP4Interval& aOther) const { if (IsNull()) { return aOther; } return MP4Interval(std::min(start, aOther.start), std::max(end, aOther.end)); } T start; T end; static void SemiNormalAppend(nsTArray>& aIntervals, MP4Interval aMP4Interval) { if (!aIntervals.IsEmpty() && aIntervals.LastElement().end == aMP4Interval.start) { aIntervals.LastElement().end = aMP4Interval.end; } else { aIntervals.AppendElement(aMP4Interval); } } static void Normalize(const nsTArray>& aIntervals, nsTArray>* aNormalized) { if (!aNormalized || !aIntervals.Length()) { MOZ_ASSERT(aNormalized); return; } MOZ_ASSERT(aNormalized->IsEmpty()); nsTArray> sorted = aIntervals.Clone(); sorted.Sort(Compare()); MP4Interval current = sorted[0]; for (size_t i = 1; i < sorted.Length(); i++) { MOZ_ASSERT(sorted[i].start <= sorted[i].end); if (current.Contains(sorted[i])) { continue; } if (current.end >= sorted[i].start) { current.end = sorted[i].end; } else { aNormalized->AppendElement(current); current = sorted[i]; } } aNormalized->AppendElement(current); } static void Intersection(const nsTArray>& a0, const nsTArray>& a1, nsTArray>* aIntersection) { MOZ_ASSERT(IsNormalized(a0)); MOZ_ASSERT(IsNormalized(a1)); size_t i0 = 0; size_t i1 = 0; while (i0 < a0.Length() && i1 < a1.Length()) { MP4Interval i = a0[i0].Intersection(a1[i1]); if (i.Length()) { aIntersection->AppendElement(i); } if (a0[i0].end < a1[i1].end) { i0++; // Assert that the array is sorted MOZ_ASSERT(i0 == a0.Length() || a0[i0 - 1].start < a0[i0].start); } else { i1++; // Assert that the array is sorted MOZ_ASSERT(i1 == a1.Length() || a1[i1 - 1].start < a1[i1].start); } } } static bool IsNormalized(const nsTArray>& aIntervals) { for (size_t i = 1; i < aIntervals.Length(); i++) { if (aIntervals[i - 1].end >= aIntervals[i].start) { return false; } } return true; } struct Compare { bool Equals(const MP4Interval& a0, const MP4Interval& a1) const { return a0.start == a1.start && a0.end == a1.end; } bool LessThan(const MP4Interval& a0, const MP4Interval& a1) const { return a0.start < a1.start; } }; }; } // namespace mozilla #endif