/* * 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. */ #ifndef SkPathEffectBase_DEFINED #define SkPathEffectBase_DEFINED #include "include/core/SkPath.h" #include "include/core/SkPathEffect.h" #include "include/core/SkPoint.h" #include "include/core/SkRect.h" class SkPath; class SkStrokeRec; class SkPathEffectBase : public SkPathEffect { public: SkPathEffectBase() {} /** \class PointData PointData aggregates all the information needed to draw the point primitives returned by an 'asPoints' call. */ class PointData { public: PointData() : fFlags(0) , fPoints(nullptr) , fNumPoints(0) { fSize.set(SK_Scalar1, SK_Scalar1); // 'asPoints' needs to initialize/fill-in 'fClipRect' if it sets // the kUseClip flag } ~PointData() { delete [] fPoints; } // TODO: consider using passed-in flags to limit the work asPoints does. // For example, a kNoPath flag could indicate don't bother generating // stamped solutions. // Currently none of these flags are supported. enum PointFlags { kCircles_PointFlag = 0x01, // draw points as circles (instead of rects) kUsePath_PointFlag = 0x02, // draw points as stamps of the returned path kUseClip_PointFlag = 0x04, // apply 'fClipRect' before drawing the points }; uint32_t fFlags; // flags that impact the drawing of the points SkPoint* fPoints; // the center point of each generated point int fNumPoints; // number of points in fPoints SkVector fSize; // the size to draw the points SkRect fClipRect; // clip required to draw the points (if kUseClip is set) SkPath fPath; // 'stamp' to be used at each point (if kUsePath is set) SkPath fFirst; // If not empty, contains geometry for first point SkPath fLast; // If not empty, contains geometry for last point }; /** * Does applying this path effect to 'src' yield a set of points? If so, * optionally return the points in 'results'. */ bool asPoints(PointData* results, const SkPath& src, const SkStrokeRec&, const SkMatrix&, const SkRect* cullR) const; /** * If the PathEffect can be represented as a dash pattern, asADash will return kDash_DashType * and None otherwise. If a non NULL info is passed in, the various DashInfo will be filled * in if the PathEffect can be a dash pattern. If passed in info has an fCount equal or * greater to that of the effect, it will memcpy the values of the dash intervals into the * info. Thus the general approach will be call asADash once with default info to get DashType * and fCount. If effect can be represented as a dash pattern, allocate space for the intervals * in info, then call asADash again with the same info and the intervals will get copied in. */ SkFlattenable::Type getFlattenableType() const override { return kSkPathEffect_Type; } static sk_sp Deserialize(const void* data, size_t size, const SkDeserialProcs* procs = nullptr) { return sk_sp(static_cast( SkFlattenable::Deserialize( kSkPathEffect_Type, data, size, procs).release())); } /** * Filter the input path. * * The CTM parameter is provided for path effects that can use the information. * The output of path effects must always be in the original (input) coordinate system, * regardless of whether the path effect uses the CTM or not. */ virtual bool onFilterPath(SkPath*, const SkPath&, SkStrokeRec*, const SkRect*, const SkMatrix& /* ctm */) const = 0; /** Path effects *requiring* a valid CTM should override to return true. */ virtual bool onNeedsCTM() const { return false; } virtual bool onAsPoints(PointData*, const SkPath&, const SkStrokeRec&, const SkMatrix&, const SkRect*) const { return false; } virtual DashType onAsADash(DashInfo*) const { return kNone_DashType; } // Compute a conservative bounds for its effect, given the bounds of the path. 'bounds' is // both the input and output; if false is returned, fast bounds could not be calculated and // 'bounds' is undefined. // // If 'bounds' is null, performs a dry-run determining if bounds could be computed. virtual bool computeFastBounds(SkRect* bounds) const = 0; static void RegisterFlattenables(); private: using INHERITED = SkPathEffect; }; //////////////////////////////////////////////////////////////////////////////////////////////// static inline SkPathEffectBase* as_PEB(SkPathEffect* effect) { return static_cast(effect); } static inline const SkPathEffectBase* as_PEB(const SkPathEffect* effect) { return static_cast(effect); } static inline const SkPathEffectBase* as_PEB(const sk_sp& effect) { return static_cast(effect.get()); } static inline sk_sp as_PEB_sp(sk_sp effect) { return sk_sp(static_cast(effect.release())); } #endif