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-rw-r--r--dom/smil/SMILKeySpline.cpp127
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diff --git a/dom/smil/SMILKeySpline.cpp b/dom/smil/SMILKeySpline.cpp
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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/. */
+
+#include "SMILKeySpline.h"
+#include <stdint.h>
+#include <math.h>
+
+namespace mozilla {
+
+#define NEWTON_ITERATIONS 4
+#define NEWTON_MIN_SLOPE 0.02
+#define SUBDIVISION_PRECISION 0.0000001
+#define SUBDIVISION_MAX_ITERATIONS 10
+
+const double SMILKeySpline::kSampleStepSize =
+ 1.0 / double(kSplineTableSize - 1);
+
+void SMILKeySpline::Init(double aX1, double aY1, double aX2, double aY2) {
+ mX1 = aX1;
+ mY1 = aY1;
+ mX2 = aX2;
+ mY2 = aY2;
+
+ if (mX1 != mY1 || mX2 != mY2) CalcSampleValues();
+}
+
+double SMILKeySpline::GetSplineValue(double aX) const {
+ if (mX1 == mY1 && mX2 == mY2) return aX;
+
+ return CalcBezier(GetTForX(aX), mY1, mY2);
+}
+
+void SMILKeySpline::GetSplineDerivativeValues(double aX, double& aDX,
+ double& aDY) const {
+ double t = GetTForX(aX);
+ aDX = GetSlope(t, mX1, mX2);
+ aDY = GetSlope(t, mY1, mY2);
+}
+
+void SMILKeySpline::CalcSampleValues() {
+ for (uint32_t i = 0; i < kSplineTableSize; ++i) {
+ mSampleValues[i] = CalcBezier(double(i) * kSampleStepSize, mX1, mX2);
+ }
+}
+
+/*static*/
+double SMILKeySpline::CalcBezier(double aT, double aA1, double aA2) {
+ // use Horner's scheme to evaluate the Bezier polynomial
+ return ((A(aA1, aA2) * aT + B(aA1, aA2)) * aT + C(aA1)) * aT;
+}
+
+/*static*/
+double SMILKeySpline::GetSlope(double aT, double aA1, double aA2) {
+ return 3.0 * A(aA1, aA2) * aT * aT + 2.0 * B(aA1, aA2) * aT + C(aA1);
+}
+
+double SMILKeySpline::GetTForX(double aX) const {
+ // Early return when aX == 1.0 to avoid floating-point inaccuracies.
+ if (aX == 1.0) {
+ return 1.0;
+ }
+ // Find interval where t lies
+ double intervalStart = 0.0;
+ const double* currentSample = &mSampleValues[1];
+ const double* const lastSample = &mSampleValues[kSplineTableSize - 1];
+ for (; currentSample != lastSample && *currentSample <= aX; ++currentSample) {
+ intervalStart += kSampleStepSize;
+ }
+ --currentSample; // t now lies between *currentSample and *currentSample+1
+
+ // Interpolate to provide an initial guess for t
+ double dist = (aX - *currentSample) / (*(currentSample + 1) - *currentSample);
+ double guessForT = intervalStart + dist * kSampleStepSize;
+
+ // Check the slope to see what strategy to use. If the slope is too small
+ // Newton-Raphson iteration won't converge on a root so we use bisection
+ // instead.
+ double initialSlope = GetSlope(guessForT, mX1, mX2);
+ if (initialSlope >= NEWTON_MIN_SLOPE) {
+ return NewtonRaphsonIterate(aX, guessForT);
+ }
+ if (initialSlope == 0.0) {
+ return guessForT;
+ }
+ return BinarySubdivide(aX, intervalStart, intervalStart + kSampleStepSize);
+}
+
+double SMILKeySpline::NewtonRaphsonIterate(double aX, double aGuessT) const {
+ // Refine guess with Newton-Raphson iteration
+ for (uint32_t i = 0; i < NEWTON_ITERATIONS; ++i) {
+ // We're trying to find where f(t) = aX,
+ // so we're actually looking for a root for: CalcBezier(t) - aX
+ double currentX = CalcBezier(aGuessT, mX1, mX2) - aX;
+ double currentSlope = GetSlope(aGuessT, mX1, mX2);
+
+ if (currentSlope == 0.0) return aGuessT;
+
+ aGuessT -= currentX / currentSlope;
+ }
+
+ return aGuessT;
+}
+
+double SMILKeySpline::BinarySubdivide(double aX, double aA, double aB) const {
+ double currentX;
+ double currentT;
+ uint32_t i = 0;
+
+ do {
+ currentT = aA + (aB - aA) / 2.0;
+ currentX = CalcBezier(currentT, mX1, mX2) - aX;
+
+ if (currentX > 0.0) {
+ aB = currentT;
+ } else {
+ aA = currentT;
+ }
+ } while (fabs(currentX) > SUBDIVISION_PRECISION &&
+ ++i < SUBDIVISION_MAX_ITERATIONS);
+
+ return currentT;
+}
+
+} // namespace mozilla