/* * Copyright 2012 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkStrokeRec_DEFINED #define SkStrokeRec_DEFINED #include "include/core/SkPaint.h" #include "include/private/SkMacros.h" class SkPath; SK_BEGIN_REQUIRE_DENSE class SK_API SkStrokeRec { public: enum InitStyle { kHairline_InitStyle, kFill_InitStyle }; SkStrokeRec(InitStyle style); SkStrokeRec(const SkPaint&, SkPaint::Style, SkScalar resScale = 1); explicit SkStrokeRec(const SkPaint&, SkScalar resScale = 1); enum Style { kHairline_Style, kFill_Style, kStroke_Style, kStrokeAndFill_Style }; static constexpr int kStyleCount = kStrokeAndFill_Style + 1; Style getStyle() const; SkScalar getWidth() const { return fWidth; } SkScalar getMiter() const { return fMiterLimit; } SkPaint::Cap getCap() const { return (SkPaint::Cap)fCap; } SkPaint::Join getJoin() const { return (SkPaint::Join)fJoin; } bool isHairlineStyle() const { return kHairline_Style == this->getStyle(); } bool isFillStyle() const { return kFill_Style == this->getStyle(); } void setFillStyle(); void setHairlineStyle(); /** * Specify the strokewidth, and optionally if you want stroke + fill. * Note, if width==0, then this request is taken to mean: * strokeAndFill==true -> new style will be Fill * strokeAndFill==false -> new style will be Hairline */ void setStrokeStyle(SkScalar width, bool strokeAndFill = false); void setStrokeParams(SkPaint::Cap cap, SkPaint::Join join, SkScalar miterLimit) { fCap = cap; fJoin = join; fMiterLimit = miterLimit; } SkScalar getResScale() const { return fResScale; } void setResScale(SkScalar rs) { SkASSERT(rs > 0 && SkScalarIsFinite(rs)); fResScale = rs; } /** * Returns true if this specifes any thick stroking, i.e. applyToPath() * will return true. */ bool needToApply() const { Style style = this->getStyle(); return (kStroke_Style == style) || (kStrokeAndFill_Style == style); } /** * Apply these stroke parameters to the src path, returning the result * in dst. * * If there was no change (i.e. style == hairline or fill) this returns * false and dst is unchanged. Otherwise returns true and the result is * stored in dst. * * src and dst may be the same path. */ bool applyToPath(SkPath* dst, const SkPath& src) const; /** * Apply these stroke parameters to a paint. */ void applyToPaint(SkPaint* paint) const; /** * Gives a conservative value for the outset that should applied to a * geometries bounds to account for any inflation due to applying this * strokeRec to the geometry. */ SkScalar getInflationRadius() const; /** * Equivalent to: * SkStrokeRec rec(paint, style); * rec.getInflationRadius(); * This does not account for other effects on the paint (i.e. path * effect). */ static SkScalar GetInflationRadius(const SkPaint&, SkPaint::Style); static SkScalar GetInflationRadius(SkPaint::Join, SkScalar miterLimit, SkPaint::Cap, SkScalar strokeWidth); /** * Compare if two SkStrokeRecs have an equal effect on a path. * Equal SkStrokeRecs produce equal paths. Equality of produced * paths does not take the ResScale parameter into account. */ bool hasEqualEffect(const SkStrokeRec& other) const { if (!this->needToApply()) { return this->getStyle() == other.getStyle(); } return fWidth == other.fWidth && fMiterLimit == other.fMiterLimit && fCap == other.fCap && fJoin == other.fJoin && fStrokeAndFill == other.fStrokeAndFill; } private: void init(const SkPaint&, SkPaint::Style, SkScalar resScale); SkScalar fResScale; SkScalar fWidth; SkScalar fMiterLimit; // The following three members are packed together into a single u32. // This is to avoid unnecessary padding and ensure binary equality for // hashing (because the padded areas might contain garbage values). // // fCap and fJoin are larger than needed to avoid having to initialize // any pad values uint32_t fCap : 16; // SkPaint::Cap uint32_t fJoin : 15; // SkPaint::Join uint32_t fStrokeAndFill : 1; // bool }; SK_END_REQUIRE_DENSE #endif