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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /dom/animation/ComputedTimingFunction.cpp | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'dom/animation/ComputedTimingFunction.cpp')
-rw-r--r-- | dom/animation/ComputedTimingFunction.cpp | 194 |
1 files changed, 194 insertions, 0 deletions
diff --git a/dom/animation/ComputedTimingFunction.cpp b/dom/animation/ComputedTimingFunction.cpp new file mode 100644 index 000000000..95b7fa785 --- /dev/null +++ b/dom/animation/ComputedTimingFunction.cpp @@ -0,0 +1,194 @@ +/* -*- 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/. */ + +#include "ComputedTimingFunction.h" +#include "nsAlgorithm.h" // For clamped() +#include "nsStyleUtil.h" + +namespace mozilla { + +void +ComputedTimingFunction::Init(const nsTimingFunction &aFunction) +{ + mType = aFunction.mType; + if (nsTimingFunction::IsSplineType(mType)) { + mTimingFunction.Init(aFunction.mFunc.mX1, aFunction.mFunc.mY1, + aFunction.mFunc.mX2, aFunction.mFunc.mY2); + } else { + mSteps = aFunction.mSteps; + } +} + +static inline double +StepTiming(uint32_t aSteps, + double aPortion, + ComputedTimingFunction::BeforeFlag aBeforeFlag, + nsTimingFunction::Type aType) +{ + MOZ_ASSERT(0.0 <= aPortion && aPortion <= 1.0, "out of range"); + MOZ_ASSERT(aType == nsTimingFunction::Type::StepStart || + aType == nsTimingFunction::Type::StepEnd, "invalid type"); + + if (aPortion == 1.0) { + return 1.0; + } + + // Calculate current step using step-end behavior + uint32_t step = uint32_t(aPortion * aSteps); // floor + + // step-start is one step ahead + if (aType == nsTimingFunction::Type::StepStart) { + step++; + } + + // If the "before flag" is set and we are at a transition point, + // drop back a step (but only if we are not already at the zero point-- + // we do this clamping here since |step| is an unsigned integer) + if (step != 0 && + aBeforeFlag == ComputedTimingFunction::BeforeFlag::Set && + fmod(aPortion * aSteps, 1) == 0) { + step--; + } + + // Convert to a progress value + return double(step) / double(aSteps); +} + +double +ComputedTimingFunction::GetValue( + double aPortion, + ComputedTimingFunction::BeforeFlag aBeforeFlag) const +{ + if (HasSpline()) { + // Check for a linear curve. + // (GetSplineValue(), below, also checks this but doesn't work when + // aPortion is outside the range [0.0, 1.0]). + if (mTimingFunction.X1() == mTimingFunction.Y1() && + mTimingFunction.X2() == mTimingFunction.Y2()) { + return aPortion; + } + + // Ensure that we return 0 or 1 on both edges. + if (aPortion == 0.0) { + return 0.0; + } + if (aPortion == 1.0) { + return 1.0; + } + + // For negative values, try to extrapolate with tangent (p1 - p0) or, + // if p1 is coincident with p0, with (p2 - p0). + if (aPortion < 0.0) { + if (mTimingFunction.X1() > 0.0) { + return aPortion * mTimingFunction.Y1() / mTimingFunction.X1(); + } else if (mTimingFunction.Y1() == 0 && mTimingFunction.X2() > 0.0) { + return aPortion * mTimingFunction.Y2() / mTimingFunction.X2(); + } + // If we can't calculate a sensible tangent, don't extrapolate at all. + return 0.0; + } + + // For values greater than 1, try to extrapolate with tangent (p2 - p3) or, + // if p2 is coincident with p3, with (p1 - p3). + if (aPortion > 1.0) { + if (mTimingFunction.X2() < 1.0) { + return 1.0 + (aPortion - 1.0) * + (mTimingFunction.Y2() - 1) / (mTimingFunction.X2() - 1); + } else if (mTimingFunction.Y2() == 1 && mTimingFunction.X1() < 1.0) { + return 1.0 + (aPortion - 1.0) * + (mTimingFunction.Y1() - 1) / (mTimingFunction.X1() - 1); + } + // If we can't calculate a sensible tangent, don't extrapolate at all. + return 1.0; + } + + return mTimingFunction.GetSplineValue(aPortion); + } + + // Since we use endpoint-exclusive timing, the output of a steps(start) timing + // function when aPortion = 0.0 is the top of the first step. When aPortion is + // negative, however, we should use the bottom of the first step. We handle + // negative values of aPortion specially here since once we clamp aPortion + // to [0,1] below we will no longer be able to distinguish to the two cases. + if (aPortion < 0.0) { + return 0.0; + } + + // Clamp in case of steps(end) and steps(start) for values greater than 1. + aPortion = clamped(aPortion, 0.0, 1.0); + + return StepTiming(mSteps, aPortion, aBeforeFlag, mType); +} + +int32_t +ComputedTimingFunction::Compare(const ComputedTimingFunction& aRhs) const +{ + if (mType != aRhs.mType) { + return int32_t(mType) - int32_t(aRhs.mType); + } + + if (mType == nsTimingFunction::Type::CubicBezier) { + int32_t order = mTimingFunction.Compare(aRhs.mTimingFunction); + if (order != 0) { + return order; + } + } else if (mType == nsTimingFunction::Type::StepStart || + mType == nsTimingFunction::Type::StepEnd) { + if (mSteps != aRhs.mSteps) { + return int32_t(mSteps) - int32_t(aRhs.mSteps); + } + } + + return 0; +} + +void +ComputedTimingFunction::AppendToString(nsAString& aResult) const +{ + switch (mType) { + case nsTimingFunction::Type::CubicBezier: + nsStyleUtil::AppendCubicBezierTimingFunction(mTimingFunction.X1(), + mTimingFunction.Y1(), + mTimingFunction.X2(), + mTimingFunction.Y2(), + aResult); + break; + case nsTimingFunction::Type::StepStart: + case nsTimingFunction::Type::StepEnd: + nsStyleUtil::AppendStepsTimingFunction(mType, mSteps, aResult); + break; + default: + nsStyleUtil::AppendCubicBezierKeywordTimingFunction(mType, aResult); + break; + } +} + +/* static */ int32_t +ComputedTimingFunction::Compare(const Maybe<ComputedTimingFunction>& aLhs, + const Maybe<ComputedTimingFunction>& aRhs) +{ + // We can't use |operator<| for const Maybe<>& here because + // 'ease' is prior to 'linear' which is represented by Nothing(). + // So we have to convert Nothing() as 'linear' and check it first. + nsTimingFunction::Type lhsType = aLhs.isNothing() ? + nsTimingFunction::Type::Linear : aLhs->GetType(); + nsTimingFunction::Type rhsType = aRhs.isNothing() ? + nsTimingFunction::Type::Linear : aRhs->GetType(); + + if (lhsType != rhsType) { + return int32_t(lhsType) - int32_t(rhsType); + } + + // Both of them are Nothing(). + if (lhsType == nsTimingFunction::Type::Linear) { + return 0; + } + + // Other types. + return aLhs->Compare(aRhs.value()); +} + +} // namespace mozilla |