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513 lines
20 KiB
513 lines
20 KiB
/*
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* Copyright 2012 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkRRect_DEFINED
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#define SkRRect_DEFINED
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#include "include/core/SkPoint.h"
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#include "include/core/SkRect.h"
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class SkPath;
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class SkMatrix;
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class SkString;
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/** \class SkRRect
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SkRRect describes a rounded rectangle with a bounds and a pair of radii for each corner.
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The bounds and radii can be set so that SkRRect describes: a rectangle with sharp corners;
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a circle; an oval; or a rectangle with one or more rounded corners.
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SkRRect allows implementing CSS properties that describe rounded corners.
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SkRRect may have up to eight different radii, one for each axis on each of its four
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corners.
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SkRRect may modify the provided parameters when initializing bounds and radii.
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If either axis radii is zero or less: radii are stored as zero; corner is square.
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If corner curves overlap, radii are proportionally reduced to fit within bounds.
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*/
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class SK_API SkRRect {
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public:
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/** Initializes bounds at (0, 0), the origin, with zero width and height.
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Initializes corner radii to (0, 0), and sets type of kEmpty_Type.
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@return empty SkRRect
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*/
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SkRRect() = default;
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/** Initializes to copy of rrect bounds and corner radii.
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@param rrect bounds and corner to copy
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@return copy of rrect
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*/
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SkRRect(const SkRRect& rrect) = default;
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/** Copies rrect bounds and corner radii.
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@param rrect bounds and corner to copy
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@return copy of rrect
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*/
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SkRRect& operator=(const SkRRect& rrect) = default;
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/** \enum SkRRect::Type
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Type describes possible specializations of SkRRect. Each Type is
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exclusive; a SkRRect may only have one type.
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Type members become progressively less restrictive; larger values of
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Type have more degrees of freedom than smaller values.
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*/
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enum Type {
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kEmpty_Type, //!< zero width or height
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kRect_Type, //!< non-zero width and height, and zeroed radii
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kOval_Type, //!< non-zero width and height filled with radii
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kSimple_Type, //!< non-zero width and height with equal radii
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kNinePatch_Type, //!< non-zero width and height with axis-aligned radii
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kComplex_Type, //!< non-zero width and height with arbitrary radii
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kLastType = kComplex_Type, //!< largest Type value
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};
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Type getType() const {
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SkASSERT(this->isValid());
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return static_cast<Type>(fType);
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}
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Type type() const { return this->getType(); }
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inline bool isEmpty() const { return kEmpty_Type == this->getType(); }
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inline bool isRect() const { return kRect_Type == this->getType(); }
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inline bool isOval() const { return kOval_Type == this->getType(); }
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inline bool isSimple() const { return kSimple_Type == this->getType(); }
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inline bool isNinePatch() const { return kNinePatch_Type == this->getType(); }
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inline bool isComplex() const { return kComplex_Type == this->getType(); }
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/** Returns span on the x-axis. This does not check if result fits in 32-bit float;
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result may be infinity.
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@return rect().fRight minus rect().fLeft
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*/
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SkScalar width() const { return fRect.width(); }
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/** Returns span on the y-axis. This does not check if result fits in 32-bit float;
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result may be infinity.
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@return rect().fBottom minus rect().fTop
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*/
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SkScalar height() const { return fRect.height(); }
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/** Returns top-left corner radii. If type() returns kEmpty_Type, kRect_Type,
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kOval_Type, or kSimple_Type, returns a value representative of all corner radii.
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If type() returns kNinePatch_Type or kComplex_Type, at least one of the
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remaining three corners has a different value.
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@return corner radii for simple types
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*/
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SkVector getSimpleRadii() const {
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return fRadii[0];
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}
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/** Sets bounds to zero width and height at (0, 0), the origin. Sets
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corner radii to zero and sets type to kEmpty_Type.
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*/
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void setEmpty() { *this = SkRRect(); }
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/** Sets bounds to sorted rect, and sets corner radii to zero.
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If set bounds has width and height, and sets type to kRect_Type;
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otherwise, sets type to kEmpty_Type.
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@param rect bounds to set
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*/
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void setRect(const SkRect& rect) {
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if (!this->initializeRect(rect)) {
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return;
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}
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memset(fRadii, 0, sizeof(fRadii));
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fType = kRect_Type;
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SkASSERT(this->isValid());
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}
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/** Initializes bounds at (0, 0), the origin, with zero width and height.
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Initializes corner radii to (0, 0), and sets type of kEmpty_Type.
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@return empty SkRRect
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*/
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static SkRRect MakeEmpty() { return SkRRect(); }
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/** Initializes to copy of r bounds and zeroes corner radii.
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@param r bounds to copy
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@return copy of r
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*/
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static SkRRect MakeRect(const SkRect& r) {
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SkRRect rr;
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rr.setRect(r);
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return rr;
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}
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/** Sets bounds to oval, x-axis radii to half oval.width(), and all y-axis radii
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to half oval.height(). If oval bounds is empty, sets to kEmpty_Type.
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Otherwise, sets to kOval_Type.
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@param oval bounds of oval
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@return oval
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*/
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static SkRRect MakeOval(const SkRect& oval) {
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SkRRect rr;
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rr.setOval(oval);
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return rr;
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}
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/** Sets to rounded rectangle with the same radii for all four corners.
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If rect is empty, sets to kEmpty_Type.
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Otherwise, if xRad and yRad are zero, sets to kRect_Type.
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Otherwise, if xRad is at least half rect.width() and yRad is at least half
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rect.height(), sets to kOval_Type.
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Otherwise, sets to kSimple_Type.
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@param rect bounds of rounded rectangle
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@param xRad x-axis radius of corners
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@param yRad y-axis radius of corners
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@return rounded rectangle
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*/
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static SkRRect MakeRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad) {
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SkRRect rr;
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rr.setRectXY(rect, xRad, yRad);
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return rr;
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}
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/** Sets bounds to oval, x-axis radii to half oval.width(), and all y-axis radii
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to half oval.height(). If oval bounds is empty, sets to kEmpty_Type.
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Otherwise, sets to kOval_Type.
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@param oval bounds of oval
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*/
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void setOval(const SkRect& oval);
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/** Sets to rounded rectangle with the same radii for all four corners.
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If rect is empty, sets to kEmpty_Type.
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Otherwise, if xRad or yRad is zero, sets to kRect_Type.
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Otherwise, if xRad is at least half rect.width() and yRad is at least half
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rect.height(), sets to kOval_Type.
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Otherwise, sets to kSimple_Type.
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@param rect bounds of rounded rectangle
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@param xRad x-axis radius of corners
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@param yRad y-axis radius of corners
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example: https://fiddle.skia.org/c/@RRect_setRectXY
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*/
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void setRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad);
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/** Sets bounds to rect. Sets radii to (leftRad, topRad), (rightRad, topRad),
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(rightRad, bottomRad), (leftRad, bottomRad).
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If rect is empty, sets to kEmpty_Type.
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Otherwise, if leftRad and rightRad are zero, sets to kRect_Type.
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Otherwise, if topRad and bottomRad are zero, sets to kRect_Type.
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Otherwise, if leftRad and rightRad are equal and at least half rect.width(), and
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topRad and bottomRad are equal at least half rect.height(), sets to kOval_Type.
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Otherwise, if leftRad and rightRad are equal, and topRad and bottomRad are equal,
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sets to kSimple_Type. Otherwise, sets to kNinePatch_Type.
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Nine patch refers to the nine parts defined by the radii: one center rectangle,
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four edge patches, and four corner patches.
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@param rect bounds of rounded rectangle
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@param leftRad left-top and left-bottom x-axis radius
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@param topRad left-top and right-top y-axis radius
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@param rightRad right-top and right-bottom x-axis radius
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@param bottomRad left-bottom and right-bottom y-axis radius
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*/
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void setNinePatch(const SkRect& rect, SkScalar leftRad, SkScalar topRad,
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SkScalar rightRad, SkScalar bottomRad);
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/** Sets bounds to rect. Sets radii array for individual control of all for corners.
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If rect is empty, sets to kEmpty_Type.
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Otherwise, if one of each corner radii are zero, sets to kRect_Type.
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Otherwise, if all x-axis radii are equal and at least half rect.width(), and
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all y-axis radii are equal at least half rect.height(), sets to kOval_Type.
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Otherwise, if all x-axis radii are equal, and all y-axis radii are equal,
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sets to kSimple_Type. Otherwise, sets to kNinePatch_Type.
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@param rect bounds of rounded rectangle
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@param radii corner x-axis and y-axis radii
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example: https://fiddle.skia.org/c/@RRect_setRectRadii
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*/
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void setRectRadii(const SkRect& rect, const SkVector radii[4]);
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/** \enum SkRRect::Corner
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The radii are stored: top-left, top-right, bottom-right, bottom-left.
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*/
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enum Corner {
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kUpperLeft_Corner, //!< index of top-left corner radii
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kUpperRight_Corner, //!< index of top-right corner radii
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kLowerRight_Corner, //!< index of bottom-right corner radii
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kLowerLeft_Corner, //!< index of bottom-left corner radii
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};
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/** Returns bounds. Bounds may have zero width or zero height. Bounds right is
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greater than or equal to left; bounds bottom is greater than or equal to top.
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Result is identical to getBounds().
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@return bounding box
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*/
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const SkRect& rect() const { return fRect; }
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/** Returns scalar pair for radius of curve on x-axis and y-axis for one corner.
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Both radii may be zero. If not zero, both are positive and finite.
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@return x-axis and y-axis radii for one corner
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*/
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SkVector radii(Corner corner) const { return fRadii[corner]; }
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/** Returns bounds. Bounds may have zero width or zero height. Bounds right is
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greater than or equal to left; bounds bottom is greater than or equal to top.
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Result is identical to rect().
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@return bounding box
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*/
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const SkRect& getBounds() const { return fRect; }
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/** Returns true if bounds and radii in a are equal to bounds and radii in b.
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a and b are not equal if either contain NaN. a and b are equal if members
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contain zeroes with different signs.
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@param a SkRect bounds and radii to compare
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@param b SkRect bounds and radii to compare
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@return true if members are equal
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*/
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friend bool operator==(const SkRRect& a, const SkRRect& b) {
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return a.fRect == b.fRect && SkScalarsEqual(&a.fRadii[0].fX, &b.fRadii[0].fX, 8);
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}
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/** Returns true if bounds and radii in a are not equal to bounds and radii in b.
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a and b are not equal if either contain NaN. a and b are equal if members
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contain zeroes with different signs.
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@param a SkRect bounds and radii to compare
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@param b SkRect bounds and radii to compare
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@return true if members are not equal
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*/
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friend bool operator!=(const SkRRect& a, const SkRRect& b) {
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return a.fRect != b.fRect || !SkScalarsEqual(&a.fRadii[0].fX, &b.fRadii[0].fX, 8);
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}
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/** Copies SkRRect to dst, then insets dst bounds by dx and dy, and adjusts dst
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radii by dx and dy. dx and dy may be positive, negative, or zero. dst may be
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SkRRect.
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If either corner radius is zero, the corner has no curvature and is unchanged.
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Otherwise, if adjusted radius becomes negative, pins radius to zero.
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If dx exceeds half dst bounds width, dst bounds left and right are set to
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bounds x-axis center. If dy exceeds half dst bounds height, dst bounds top and
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bottom are set to bounds y-axis center.
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If dx or dy cause the bounds to become infinite, dst bounds is zeroed.
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@param dx added to rect().fLeft, and subtracted from rect().fRight
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@param dy added to rect().fTop, and subtracted from rect().fBottom
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@param dst insets bounds and radii
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example: https://fiddle.skia.org/c/@RRect_inset
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*/
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void inset(SkScalar dx, SkScalar dy, SkRRect* dst) const;
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/** Insets bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
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positive, negative, or zero.
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If either corner radius is zero, the corner has no curvature and is unchanged.
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Otherwise, if adjusted radius becomes negative, pins radius to zero.
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If dx exceeds half bounds width, bounds left and right are set to
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bounds x-axis center. If dy exceeds half bounds height, bounds top and
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bottom are set to bounds y-axis center.
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If dx or dy cause the bounds to become infinite, bounds is zeroed.
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@param dx added to rect().fLeft, and subtracted from rect().fRight
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@param dy added to rect().fTop, and subtracted from rect().fBottom
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*/
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void inset(SkScalar dx, SkScalar dy) {
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this->inset(dx, dy, this);
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}
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/** Outsets dst bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
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positive, negative, or zero.
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If either corner radius is zero, the corner has no curvature and is unchanged.
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Otherwise, if adjusted radius becomes negative, pins radius to zero.
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If dx exceeds half dst bounds width, dst bounds left and right are set to
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bounds x-axis center. If dy exceeds half dst bounds height, dst bounds top and
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bottom are set to bounds y-axis center.
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If dx or dy cause the bounds to become infinite, dst bounds is zeroed.
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@param dx subtracted from rect().fLeft, and added to rect().fRight
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@param dy subtracted from rect().fTop, and added to rect().fBottom
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@param dst outset bounds and radii
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*/
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void outset(SkScalar dx, SkScalar dy, SkRRect* dst) const {
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this->inset(-dx, -dy, dst);
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}
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/** Outsets bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
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positive, negative, or zero.
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If either corner radius is zero, the corner has no curvature and is unchanged.
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Otherwise, if adjusted radius becomes negative, pins radius to zero.
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If dx exceeds half bounds width, bounds left and right are set to
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bounds x-axis center. If dy exceeds half bounds height, bounds top and
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bottom are set to bounds y-axis center.
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If dx or dy cause the bounds to become infinite, bounds is zeroed.
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@param dx subtracted from rect().fLeft, and added to rect().fRight
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@param dy subtracted from rect().fTop, and added to rect().fBottom
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*/
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void outset(SkScalar dx, SkScalar dy) {
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this->inset(-dx, -dy, this);
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}
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/** Translates SkRRect by (dx, dy).
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@param dx offset added to rect().fLeft and rect().fRight
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@param dy offset added to rect().fTop and rect().fBottom
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*/
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void offset(SkScalar dx, SkScalar dy) {
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fRect.offset(dx, dy);
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}
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/** Returns SkRRect translated by (dx, dy).
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@param dx offset added to rect().fLeft and rect().fRight
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@param dy offset added to rect().fTop and rect().fBottom
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@return SkRRect bounds offset by (dx, dy), with unchanged corner radii
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*/
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SkRRect SK_WARN_UNUSED_RESULT makeOffset(SkScalar dx, SkScalar dy) const {
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return SkRRect(fRect.makeOffset(dx, dy), fRadii, fType);
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}
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/** Returns true if rect is inside the bounds and corner radii, and if
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SkRRect and rect are not empty.
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@param rect area tested for containment
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@return true if SkRRect contains rect
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example: https://fiddle.skia.org/c/@RRect_contains
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*/
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bool contains(const SkRect& rect) const;
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/** Returns true if bounds and radii values are finite and describe a SkRRect
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SkRRect::Type that matches getType(). All SkRRect methods construct valid types,
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even if the input values are not valid. Invalid SkRRect data can only
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be generated by corrupting memory.
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@return true if bounds and radii match type()
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example: https://fiddle.skia.org/c/@RRect_isValid
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*/
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bool isValid() const;
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static constexpr size_t kSizeInMemory = 12 * sizeof(SkScalar);
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/** Writes SkRRect to buffer. Writes kSizeInMemory bytes, and returns
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kSizeInMemory, the number of bytes written.
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@param buffer storage for SkRRect
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@return bytes written, kSizeInMemory
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example: https://fiddle.skia.org/c/@RRect_writeToMemory
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*/
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size_t writeToMemory(void* buffer) const;
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/** Reads SkRRect from buffer, reading kSizeInMemory bytes.
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Returns kSizeInMemory, bytes read if length is at least kSizeInMemory.
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Otherwise, returns zero.
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@param buffer memory to read from
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@param length size of buffer
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@return bytes read, or 0 if length is less than kSizeInMemory
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example: https://fiddle.skia.org/c/@RRect_readFromMemory
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*/
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size_t readFromMemory(const void* buffer, size_t length);
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/** Transforms by SkRRect by matrix, storing result in dst.
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Returns true if SkRRect transformed can be represented by another SkRRect.
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Returns false if matrix contains transformations that are not axis aligned.
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Asserts in debug builds if SkRRect equals dst.
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@param matrix SkMatrix specifying the transform
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@param dst SkRRect to store the result
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@return true if transformation succeeded.
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example: https://fiddle.skia.org/c/@RRect_transform
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*/
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bool transform(const SkMatrix& matrix, SkRRect* dst) const;
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/** Writes text representation of SkRRect to standard output.
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Set asHex true to generate exact binary representations
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of floating point numbers.
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@param asHex true if SkScalar values are written as hexadecimal
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example: https://fiddle.skia.org/c/@RRect_dump
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*/
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void dump(bool asHex) const;
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SkString dumpToString(bool asHex) const;
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/** Writes text representation of SkRRect to standard output. The representation
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may be directly compiled as C++ code. Floating point values are written
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with limited precision; it may not be possible to reconstruct original
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SkRRect from output.
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*/
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void dump() const { this->dump(false); }
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/** Writes text representation of SkRRect to standard output. The representation
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may be directly compiled as C++ code. Floating point values are written
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in hexadecimal to preserve their exact bit pattern. The output reconstructs the
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original SkRRect.
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*/
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void dumpHex() const { this->dump(true); }
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private:
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static bool AreRectAndRadiiValid(const SkRect&, const SkVector[4]);
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SkRRect(const SkRect& rect, const SkVector radii[4], int32_t type)
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: fRect(rect)
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, fRadii{radii[0], radii[1], radii[2], radii[3]}
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, fType(type) {}
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/**
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* Initializes fRect. If the passed in rect is not finite or empty the rrect will be fully
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* initialized and false is returned. Otherwise, just fRect is initialized and true is returned.
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*/
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bool initializeRect(const SkRect&);
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void computeType();
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bool checkCornerContainment(SkScalar x, SkScalar y) const;
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// Returns true if the radii had to be scaled to fit rect
|
|
bool scaleRadii();
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SkRect fRect = SkRect::MakeEmpty();
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// Radii order is UL, UR, LR, LL. Use Corner enum to index into fRadii[]
|
|
SkVector fRadii[4] = {{0, 0}, {0, 0}, {0,0}, {0,0}};
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// use an explicitly sized type so we're sure the class is dense (no uninitialized bytes)
|
|
int32_t fType = kEmpty_Type;
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// TODO: add padding so we can use memcpy for flattening and not copy uninitialized data
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// to access fRadii directly
|
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friend class SkPath;
|
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friend class SkRRectPriv;
|
|
};
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#endif
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