/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkCurveMeasure_DEFINED #define SkCurveMeasure_DEFINED #include "SkPathMeasurePriv.h" #include "SkPoint.h" #include "SkNx.h" // These are weights and abscissae for gaussian quadrature with weight function // w(x) = 1 static SkScalar weights8[8] = {0.3626837833783620f, 0.3626837833783620f, 0.3137066458778873f, 0.3137066458778873f, 0.2223810344533745f, 0.2223810344533745f, 0.1012285362903763f, 0.1012285362903763f}; static SkScalar absc8[8] = {-0.1834346424956498f, 0.1834346424956498f, -0.5255324099163290f, 0.5255324099163290f, -0.7966664774136267f, 0.7966664774136267f, -0.9602898564975363f, 0.9602898564975363f}; static Sk8f weights = Sk8f::Load(weights8); static Sk8f absc = 0.5f*(Sk8f::Load(absc8) + 1.0f); class ArcLengthIntegrator { public: ArcLengthIntegrator() {} ArcLengthIntegrator(const SkPoint* pts, SkSegType segType); SkScalar computeLength(SkScalar t); private: SkSegType fSegType; // precomputed coefficients for derivatives in Horner form float xCoeff[3][8]; float yCoeff[3][8]; }; class SkCurveMeasure { public: SkCurveMeasure() {} // Almost exactly the same as in SkPath::Iter: // kLine_SegType -> 2 points: start end // kQuad_SegType -> 3 points: start control end // kCubic_SegType -> 4 points: start control1 control2 end // kConic_SegType -> 4 points: start control end (w, w) // // i.e. the only difference is that the conic's last point is a point // consisting of the w value twice SkCurveMeasure(const SkPoint* pts, SkSegType segType); SkScalar getTime(SkScalar targetLength); void getPosTanTime(SkScalar distance, SkPoint* pos, SkVector* tan, SkScalar* time); SkScalar getLength(); private: const SkScalar kTolerance = 0.0001f; const int kNewtonIters = 5; const int kBisectIters = 5; SkSegType fSegType; SkPoint fPts[4]; SkScalar fLength = -1.0f; ArcLengthIntegrator fIntegrator; // for debug purposes int fIters; }; #endif // SkCurveMeasure_DEFINED