/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/core/SkFlattenable.h" #include "include/core/SkPath.h" #include "include/core/SkPathEffect.h" #include "include/core/SkPathMeasure.h" #include "include/core/SkPoint.h" #include "include/core/SkRect.h" #include "include/core/SkRefCnt.h" #include "include/core/SkScalar.h" #include "include/core/SkStrokeRec.h" #include "include/core/SkTypes.h" #include "include/effects/SkDiscretePathEffect.h" #include "include/private/base/SkFixed.h" #include "include/private/base/SkFloatingPoint.h" #include "src/core/SkPathEffectBase.h" #include "src/core/SkPointPriv.h" #include "src/core/SkReadBuffer.h" #include "src/core/SkWriteBuffer.h" #include #include class SkMatrix; /** \class LCGRandom Utility class that implements pseudo random 32bit numbers using a fast linear equation. Unlike rand(), this class holds its own seed (initially set to 0), so that multiple instances can be used with no side-effects. Copied from the original implementation of SkRandom. Only contains the methods used by SkDiscretePathEffect::filterPath, with methods that were not called directly moved to private. */ class LCGRandom { public: LCGRandom(uint32_t seed) : fSeed(seed) {} /** Return the next pseudo random number expressed as a SkScalar in the range [-SK_Scalar1..SK_Scalar1). */ SkScalar nextSScalar1() { return SkFixedToScalar(this->nextSFixed1()); } private: /** Return the next pseudo random number as an unsigned 32bit value. */ uint32_t nextU() { uint32_t r = fSeed * kMul + kAdd; fSeed = r; return r; } /** Return the next pseudo random number as a signed 32bit value. */ int32_t nextS() { return (int32_t)this->nextU(); } /** Return the next pseudo random number expressed as a signed SkFixed in the range [-SK_Fixed1..SK_Fixed1). */ SkFixed nextSFixed1() { return this->nextS() >> 15; } // See "Numerical Recipes in C", 1992 page 284 for these constants enum { kMul = 1664525, kAdd = 1013904223 }; uint32_t fSeed; }; static void Perterb(SkPoint* p, const SkVector& tangent, SkScalar scale) { SkVector normal = tangent; SkPointPriv::RotateCCW(&normal); normal.setLength(scale); *p += normal; } class SkDiscretePathEffectImpl : public SkPathEffectBase { public: SkDiscretePathEffectImpl(SkScalar segLength, SkScalar deviation, uint32_t seedAssist) : fSegLength(segLength), fPerterb(deviation), fSeedAssist(seedAssist) { SkASSERT(SkIsFinite(segLength)); SkASSERT(SkIsFinite(deviation)); SkASSERT(segLength > SK_ScalarNearlyZero); } bool onFilterPath(SkPath* dst, const SkPath& src, SkStrokeRec* rec, const SkRect*, const SkMatrix&) const override { bool doFill = rec->isFillStyle(); SkPathMeasure meas(src, doFill); /* Caller may supply their own seed assist, which by default is 0 */ uint32_t seed = fSeedAssist ^ SkScalarRoundToInt(meas.getLength()); LCGRandom rand(seed ^ ((seed << 16) | (seed >> 16))); SkScalar scale = fPerterb; SkPoint p; SkVector v; do { SkScalar length = meas.getLength(); #if defined(SK_BUILD_FOR_FUZZER) if (length > 1000) { return false; } #endif if (fSegLength * (2 + doFill) > length) { meas.getSegment(0, length, dst, true); // to short for us to mangle } else { int n = SkScalarRoundToInt(length / fSegLength); constexpr int kMaxReasonableIterations = 100000; n = std::min(n, kMaxReasonableIterations); SkScalar delta = length / n; SkScalar distance = 0; if (meas.isClosed()) { n -= 1; distance += delta/2; } if (meas.getPosTan(distance, &p, &v)) { Perterb(&p, v, rand.nextSScalar1() * scale); dst->moveTo(p); } while (--n >= 0) { distance += delta; if (meas.getPosTan(distance, &p, &v)) { Perterb(&p, v, rand.nextSScalar1() * scale); dst->lineTo(p); } } if (meas.isClosed()) { dst->close(); } } } while (meas.nextContour()); return true; } bool computeFastBounds(SkRect* bounds) const override { if (bounds) { SkScalar maxOutset = SkScalarAbs(fPerterb); bounds->outset(maxOutset, maxOutset); } return true; } static sk_sp CreateProc(SkReadBuffer& buffer) { SkScalar segLength = buffer.readScalar(); SkScalar perterb = buffer.readScalar(); uint32_t seed = buffer.readUInt(); return SkDiscretePathEffect::Make(segLength, perterb, seed); } void flatten(SkWriteBuffer& buffer) const override { buffer.writeScalar(fSegLength); buffer.writeScalar(fPerterb); buffer.writeUInt(fSeedAssist); } Factory getFactory() const override { return CreateProc; } const char* getTypeName() const override { return "SkDiscretePathEffect"; } private: const SkScalar fSegLength, fPerterb; /* Caller-supplied 32 bit seed assist */ const uint32_t fSeedAssist; using INHERITED = SkPathEffectBase; }; ////////////////////////////////////////////////////////////////////////////////////////////////// sk_sp SkDiscretePathEffect::Make(SkScalar segLength, SkScalar deviation, uint32_t seedAssist) { if (!SkIsFinite(segLength, deviation)) { return nullptr; } if (segLength <= SK_ScalarNearlyZero) { return nullptr; } return sk_sp(new SkDiscretePathEffectImpl(segLength, deviation, seedAssist)); } void SkDiscretePathEffect::RegisterFlattenables() { SkFlattenable::Register("SkDiscretePathEffect", SkDiscretePathEffectImpl::CreateProc); }