SkRRect Reference
===
---
class SkRRect {
public:
SkRRect() = default;
SkRRect(const SkRRect& rrect) = default;
SkRRect& operator=(const SkRRect& rrect) = default;
enum Type {
kEmpty_Type,
kRect_Type,
kOval_Type,
kSimple_Type,
kNinePatch_Type,
kComplex_Type,
kLastType = kComplex_Type,
};
Type getType() const;
Type type() const;
bool isEmpty() const;
bool isRect() const;
bool isOval() const;
bool isSimple() const;
bool isNinePatch() const;
bool isComplex() const;
SkScalar width() const;
SkScalar height() const;
SkVector getSimpleRadii() const;
void setEmpty();
void setRect(const SkRect& rect);
static SkRRect MakeEmpty();
static SkRRect MakeRect(const SkRect& r);
static SkRRect MakeOval(const SkRect& oval);
static SkRRect MakeRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad);
void setOval(const SkRect& oval);
void setRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad);
void setNinePatch(const SkRect& rect, SkScalar leftRad, SkScalar topRad,
SkScalar rightRad, SkScalar bottomRad);
void setRectRadii(const SkRect& rect, const SkVector radii[4]);
enum Corner {
kUpperLeft_Corner,
kUpperRight_Corner,
kLowerRight_Corner,
kLowerLeft_Corner,
};
const SkRect& rect() const;
SkVector radii(Corner corner) const;
const SkRect& getBounds() const;
friend bool operator==(const SkRRect& a, const SkRRect& b);
friend bool operator!=(const SkRRect& a, const SkRRect& b);
void inset(SkScalar dx, SkScalar dy, SkRRect* dst) const;
void inset(SkScalar dx, SkScalar dy);
void outset(SkScalar dx, SkScalar dy, SkRRect* dst) const;
void outset(SkScalar dx, SkScalar dy);
void offset(SkScalar dx, SkScalar dy);
SkRRect makeOffset(SkScalar dx, SkScalar dy) const;
bool contains(const SkRect& rect) const;
bool isValid() const;
static constexpr size_t kSizeInMemory = 12 * sizeof(SkScalar);
size_t writeToMemory(void* buffer) const;
size_t readFromMemory(const void* buffer, size_t length);
bool transform(const SkMatrix& matrix, SkRRect* dst) const;
void dump(bool asHex) const;
void dump() const;
void dumpHex() const;
};
SkRRect describes a rounded rectangle with a bounds and a pair of radii for each corner.
The bounds and radii can be set so that SkRRect describes: a rectangle with sharp corners;
a Circle; an Oval; or a rectangle with one or more rounded corners.
SkRRect allows implementing CSS properties that describe rounded corners.
SkRRect may have up to eight different radii, one for each axis on each of its four
corners.
SkRRect may modify the provided parameters when initializing bounds and radii.
If either axis radii is zero or less: radii are stored as zero; corner is square.
If corner curves overlap, radii are proportionally reduced to fit within bounds.
---
SkRRect()
Initializes bounds at (0, 0), the origin, with zero width and height.
Initializes corner radii to (0, 0), and sets type of kEmpty_Type.
### Return Value
empty SkRRect
### Example
### See Also
setEmpty isEmpty
---
SkRRect(const SkRRect& rrect)
Initializes to copy of rrect bounds and corner radii.
### Parameters
rrect |
bounds and corner to copy |
### Return Value
copy of rrect
### Example
### See Also
operator=(const SkRRect& rrect) MakeRect
---
SkRRect& operator=(const SkRRect& rrect)
Copies rrect bounds and corner radii.
### Parameters
rrect |
bounds and corner to copy |
### Return Value
copy of rrect
### Example
### See Also
SkRRect(const SkRRect& rrect) MakeRect
---
enum Type {
kEmpty_Type,
kRect_Type,
kOval_Type,
kSimple_Type,
kNinePatch_Type,
kComplex_Type,
kLastType = kComplex_Type,
};
Type describes possible specializations of Round_Rect. Each Type is
exclusive; a Round_Rect may only have one type.
Type members become progressively less restrictive; larger values of
Type have more degrees of freedom than smaller values.
### Constants
| Const |
Value |
Description |
|---|
SkRRect::kEmpty_Type |
0 |
Round_Rect has zero width or height. All radii are zero.
|
SkRRect::kRect_Type |
1 |
Round_Rect has width and height. All radii are zero.
|
SkRRect::kOval_Type |
2 |
Round_Rect has width and height. All four x-radii are equal,
and at least half the width. All four y-radii are equal,
and at least half the height.
|
SkRRect::kSimple_Type |
3 |
Round_Rect has width and height. All four x-radii are equal and
greater than zero, and all four y-radii are equal and greater than
zero. Either x-radii are less than half the width, or y-radii is
less than half the height, or both.
|
SkRRect::kNinePatch_Type |
4 |
Round_Rect has width and height. Left x-radii are equal, top
y-radii are equal, right x-radii are equal, and bottom y-radii
are equal. The radii do not describe Rect, Oval, or simple type.
The centers of the corner ellipses form an axis-aligned rectangle
that divides the Round_Rect into nine rectangular patches; an
interior rectangle, four edges, and four corners.
|
SkRRect::kComplex_Type |
5 |
both radii are non-zero.
|
SkRRect::kLastType |
5 |
largest Type value |
### Example
### See Also
Rect Path
---
Type getType()const
Returns Type, one of: kEmpty_Type, kRect_Type, kOval_Type, kSimple_Type, kNinePatch_Type,
kComplex_Type
.
### Return Value
Type
### Example
### See Also
Type type
---
Type type()const
Returns Type, one of: kEmpty_Type, kRect_Type, kOval_Type, kSimple_Type, kNinePatch_Type,
kComplex_Type
.
### Return Value
Type
### Example
### See Also
Type getType
---
bool isEmpty()const
### Example
### See Also
SkRect::isEmpty height width
---
bool isRect()const
### Example
### See Also
isEmpty radii
---
bool isOval()const
### Example
The first radii are scaled down proportionately until both x-axis and y-axis fit
within the bounds. After scaling, x-axis radius is smaller than half the width;
left
Round_Rect is not an
oval. The second radii are equal to half the
dimensions; right
Round_Rect is an
oval.
bool isSimple()const
### Example
### See Also
isEmpty isRect isOval isNinePatch
---
bool isNinePatch()const
### Example
### See Also
isEmpty isRect isOval isSimple isComplex
---
bool isComplex()const
### Example
### See Also
isEmpty isRect isOval isSimple isNinePatch
---
SkScalar width()const
Returns span on the x-axis. This does not check if result fits in 32-bit float;
result may be infinity.
### Return Value
rect().fRight minus rect().fLeft
### Example
#### Example Output
~~~~
unsorted width: 5
large width: inf
~~~~
### See Also
SkRect::width height getBounds
---
SkScalar height()const
Returns span on the y-axis. This does not check if result fits in 32-bit float;
result may be infinity.
### Return Value
rect().fBottom minus rect().fTop
### Example
#### Example Output
~~~~
unsorted height: 5
large height: inf
~~~~
### See Also
SkRect::height width getBounds
---
SkVector getSimpleRadii()const
Returns top-left corner radii. If type() returns kEmpty_Type, kRect_Type,
kOval_Type, or kSimple_Type, returns a value representative of all corner radii.
If type() returns kNinePatch_Type or kComplex_Type, at least one of the
remaining three corners has a different value.
### Return Value
corner radii for simple types
### Example
### See Also
radii getBounds getType isSimple
---
void setEmpty()
Sets bounds to zero width and height at (0, 0), the origin. Sets
corner radii to zero and sets type to kEmpty_Type.
### Example
Nothing blue is drawn because
Round_Rect is set to empty.
void setRect(const SkRect& rect)
Sets bounds to sorted rect, and sets corner radii to zero.
If set bounds has width and height, and sets type to kRect_Type;
otherwise, sets type to kEmpty_Type.
### Parameters
### Example
### See Also
MakeRect setRectXY
---
static SkRRect MakeEmpty()
Initializes bounds at (0, 0), the origin, with zero width and height.
Initializes corner radii to (0, 0), and sets type of kEmpty_Type.
### Return Value
empty SkRRect
### Example
### See Also
SkRRect() SkRect::MakeEmpty
---
static SkRRect MakeRect(const SkRect& r)
Initializes to copy of r bounds and zeroes corner radii.
### Parameters
### Return Value
copy of r
### Example
### See Also
setRect MakeOval MakeRectXY
---
static SkRRect MakeOval(const SkRect& oval)
Sets bounds to oval, x-axis radii to half oval.width(), and all y-axis radii
to half oval.height(). If oval bounds is empty, sets to kEmpty_Type.
Otherwise, sets to kOval_Type.
### Parameters
### Return Value
oval
### Example
### See Also
setOval MakeRect MakeRectXY
---
static SkRRect MakeRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad)
Sets to rounded rectangle with the same radii for all four corners.
If rect is empty, sets to kEmpty_Type.
Otherwise, if xRad and yRad are zero, sets to kRect_Type.
Otherwise, if xRad is at least half rect.width() and yRad is at least half
rect.height(), sets to kOval_Type.
Otherwise, sets to kSimple_Type.
### Parameters
rect |
bounds of rounded rectangle |
xRad |
x-axis radius of corners |
yRad |
y-axis radius of corners |
### Return Value
rounded rectangle
### Example
### See Also
setRectXY
---
void setOval(const SkRect& oval)
Sets bounds to oval, x-axis radii to half oval.width(), and all y-axis radii
to half oval.height(). If oval bounds is empty, sets to kEmpty_Type.
Otherwise, sets to kOval_Type.
### Parameters
### Example
### See Also
MakeOval
---
void setRectXY(const SkRect& rect, SkScalar xRad, SkScalar yRad)
Sets to rounded rectangle with the same radii for all four corners.
If rect is empty, sets to kEmpty_Type.
Otherwise, if xRad or yRad is zero, sets to kRect_Type.
Otherwise, if xRad is at least half rect.width() and yRad is at least half
rect.height(), sets to kOval_Type.
Otherwise, sets to kSimple_Type.
### Parameters
rect |
bounds of rounded rectangle |
xRad |
x-axis radius of corners |
yRad |
y-axis radius of corners |
### Example
### See Also
MakeRectXY SkPath::addRoundRect
---
void setNinePatch(const SkRect& rect, SkScalar leftRad, SkScalar topRad, SkScalar rightRad,
SkScalar bottomRad)
Sets bounds to rect. Sets radii to (leftRad, topRad), (rightRad, topRad),
(rightRad, bottomRad), (leftRad, bottomRad).
If rect is empty, sets to kEmpty_Type.
Otherwise, if leftRad and rightRad are zero, sets to kRect_Type.
Otherwise, if topRad and bottomRad are zero, sets to kRect_Type.
Otherwise, if leftRad and rightRad are equal and at least half rect.width(), and
topRad and bottomRad are equal at least half rect.height(), sets to kOval_Type.
Otherwise, if leftRad and rightRad are equal, and topRad and bottomRad are equal,
sets to kSimple_Type. Otherwise, sets to kNinePatch_Type.
Nine patch refers to the nine parts defined by the radii: one center rectangle,
four edge patches, and four corner patches.
### Parameters
rect |
bounds of rounded rectangle |
leftRad |
left-top and left-bottom x-axis radius |
topRad |
left-top and right-top y-axis radius |
rightRad |
right-top and right-bottom x-axis radius |
bottomRad |
left-bottom and right-bottom y-axis radius |
### Example
### See Also
setRectRadii
---
void setRectRadii(const SkRect& rect, const SkVector radii[4])
Sets bounds to rect. Sets radii array for individual control of all for corners.
If rect is empty, sets to kEmpty_Type.
Otherwise, if one of each corner radii are zero, sets to kRect_Type.
Otherwise, if all x-axis radii are equal and at least half rect.width(), and
all y-axis radii are equal at least half rect.height(), sets to kOval_Type.
Otherwise, if all x-axis radii are equal, and all y-axis radii are equal,
sets to kSimple_Type. Otherwise, sets to kNinePatch_Type.
### Parameters
### Example
### See Also
setNinePatch SkPath::addRoundRect
---
enum Corner {
kUpperLeft_Corner,
kUpperRight_Corner,
kLowerRight_Corner,
kLowerLeft_Corner,
};
The radii are stored: top-left, top-right, bottom-right, bottom-left.
### Constants
### Example
### See Also
radii
---
const SkRect& rect()const
Returns bounds. Bounds may have zero width or zero height. Bounds right is
greater than or equal to left; bounds bottom is greater than or equal to top.
Result is identical to getBounds().
### Return Value
bounding box
### Example
#### Example Output
~~~~
left bounds: (nan) 0
left bounds: (inf) 0
left bounds: (100) 60
left bounds: (50) 50
left bounds: (25) 25
~~~~
### See Also
getBounds
---
SkVector radii(Corner corner)const
Returns scalar pair for radius of curve on x-axis and y-axis for one corner.
Both radii may be zero. If not zero, both are positive and finite.
### Parameters
kLowerRight_Corner, kLowerLeft_Corner
### Return Value
x-axis and y-axis radii for one corner
### Example
Finite values are scaled proportionately to fit; other values are set to zero.
Scaled values cannot be larger than 25, half the bounding
Round_Rect width.
Small scaled values are halved to scale in proportion to the y-axis
corner
radius, which is twice the bounds height.
const SkRect& getBounds()const
Returns bounds. Bounds may have zero width or zero height. Bounds right is
greater than or equal to left; bounds bottom is greater than or equal to top.
Result is identical to rect().
### Return Value
bounding box
### Example
### See Also
rect
---
bool operator==(const SkRRect& a, const SkRRect& b)
Returns true if bounds and radii in a are equal to bounds and radii in b.
a and b are not equal if either contain NaN. a and b are equal if members
contain zeroes with different signs.
### Parameters
a |
SkRect bounds and radii to compare |
b |
SkRect bounds and radii to compare |
### Return Value
true if members are equal
### Example
### See Also
operator!=(const SkRRect& a, const SkRRect& b)
---
bool operator!=(const SkRRect& a, const SkRRect& b)
Returns true if bounds and radii in a are not equal to bounds and radii in b.
a and b are not equal if either contain NaN. a and b are equal if members
contain zeroes with different signs.
### Parameters
a |
SkRect bounds and radii to compare |
b |
SkRect bounds and radii to compare |
### Return Value
true if members are not equal
### Example
### See Also
operator==(const SkRRect& a, const SkRRect& b)
---
void inset(SkScalar dx, SkScalar dy, SkRRect* dst)const
Copies SkRRect to dst, then insets dst bounds by dx and dy, and adjusts dst
radii by dx and dy. dx and dy may be positive, negative, or zero. dst may be
SkRRect.
If either corner radius is zero, the corner has no curvature and is unchanged.
Otherwise, if adjusted radius becomes negative, pins radius to zero.
If dx exceeds half dst bounds width, dst bounds left and right are set to
bounds x-axis center. If dy exceeds half dst bounds height, dst bounds top and
bottom are set to bounds y-axis center.
If dx or dy cause the bounds to become infinite, dst bounds is zeroed.
### Parameters
### Example
### See Also
outset offset makeOffset
---
void inset(SkScalar dx, SkScalar dy)
Insets bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
positive, negative, or zero.
If either corner radius is zero, the corner has no curvature and is unchanged.
Otherwise, if adjusted radius becomes negative, pins radius to zero.
If dx exceeds half bounds width, bounds left and right are set to
bounds x-axis center. If dy exceeds half bounds height, bounds top and
bottom are set to bounds y-axis center.
If dx or dy cause the bounds to become infinite, bounds is zeroed.
### Parameters
### Example
### See Also
outset offset makeOffset
---
void outset(SkScalar dx, SkScalar dy, SkRRect* dst)const
Outsets dst bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
positive, negative, or zero.
If either corner radius is zero, the corner has no curvature and is unchanged.
Otherwise, if adjusted radius becomes negative, pins radius to zero.
If dx exceeds half dst bounds width, dst bounds left and right are set to
bounds x-axis center. If dy exceeds half dst bounds height, dst bounds top and
bottom are set to bounds y-axis center.
If dx or dy cause the bounds to become infinite, dst bounds is zeroed.
### Parameters
### Example
### See Also
inset offset makeOffset
---
void outset(SkScalar dx, SkScalar dy)
Outsets bounds by dx and dy, and adjusts radii by dx and dy. dx and dy may be
positive, negative, or zero.
If either corner radius is zero, the corner has no curvature and is unchanged.
Otherwise, if adjusted radius becomes negative, pins radius to zero.
If dx exceeds half bounds width, bounds left and right are set to
bounds x-axis center. If dy exceeds half bounds height, bounds top and
bottom are set to bounds y-axis center.
If dx or dy cause the bounds to become infinite, bounds is zeroed.
### Parameters
### Example
### See Also
inset offset makeOffset
---
void offset(SkScalar dx, SkScalar dy)
Translates SkRRect by (dx, dy).
### Parameters
### Example
### See Also
makeOffset inset outset
---
SkRRect makeOffset(SkScalar dx, SkScalar dy)const
Returns SkRRect translated by (dx, dy).
### Parameters
### Return Value
SkRRect bounds offset by (dx, dy), with unchanged corner radii
### Example
### See Also
offset inset outset
---
bool contains(const SkRect& rect)const
Returns true if rect is inside the bounds and corner radii, and if
SkRRect and rect are not empty.
### Parameters
rect |
area tested for containment |
### Return Value
true if SkRRect contains rect
### Example
### See Also
SkRect::contains
---
bool isValid()const
Returns true if bounds and radii values are finite and describe a SkRRect
SkRRect::Type that matches getType(). All SkRRect methods construct valid types,
even if the input values are not valid. Invalid SkRRect data can only
be generated by corrupting memory.
### Return Value
true if bounds and radii match type()
### Example
### See Also
Type getType
### Constants
---
size_t writeToMemory(void* buffer)const
Writes SkRRect to buffer. Writes kSizeInMemory bytes, and returns
kSizeInMemory, the number of bytes written.
### Parameters
### Return Value
bytes written, kSizeInMemory
### Example
### See Also
readFromMemory
---
size_t readFromMemory(const void* buffer, size_t length)
Reads SkRRect from buffer, reading kSizeInMemory bytes.
Returns kSizeInMemory, bytes read if length is at least kSizeInMemory.
Otherwise, returns zero.
### Parameters
### Return Value
bytes read, or 0 if length is less than kSizeInMemory
### Example
### See Also
writeToMemory
---
bool transform(const SkMatrix& matrix, SkRRect* dst)const
Transforms by SkRRect by matrix, storing result in dst.
Returns true if SkRRect transformed can be represented by another SkRRect.
Returns false if matrix contains transformations other than scale and translate.
Asserts in debug builds if SkRRect equals dst.
### Parameters
### Return Value
true if transformation succeeded.
### Example
### See Also
SkPath::transform
---
void dump(bool asHex)const
Writes text representation of SkRRect to standard output.
Set asHex true to generate exact binary representations
of floating point numbers.
### Parameters
### Example
#### Example Output
~~~~
SkRect::MakeLTRB(0.857143f, 0.666667f, 0.857143f, 0.666667f);
const SkPoint corners[] = {
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
};
SkRect::MakeLTRB(SkBits2Float(0x3f5b6db7), /* 0.857143 */
SkBits2Float(0x3f2aaaab), /* 0.666667 */
SkBits2Float(0x3f5b6db7), /* 0.857143 */
SkBits2Float(0x3f2aaaab) /* 0.666667 */);
const SkPoint corners[] = {
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
};
~~~~
### See Also
dumpHex SkRect::dump SkPath::dump SkPathMeasure::dump
---
void dump()const
Writes text representation of SkRRect to standard output. The representation
may be directly compiled as C++ code. Floating point values are written
with limited precision; it may not be possible to reconstruct original
SkRRect from output.
### Example
#### Example Output
~~~~
SkRect::MakeLTRB(0.857143f, 0.666667f, 0.857143f, 0.666667f);
const SkPoint corners[] = {
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
{ 0, 0 },
};
rrect is not equal to copy
~~~~
### See Also
dumpHex SkRect::dump SkPath::dump SkPathMeasure::dump
---
void dumpHex()const
Writes text representation of SkRRect to standard output. The representation
may be directly compiled as C++ code. Floating point values are written
in hexadecimal to preserve their exact bit pattern. The output reconstructs the
original SkRRect.
### Example
#### Example Output
~~~~
SkRect::MakeLTRB(SkBits2Float(0x3f5b6db7), /* 0.857143 */
SkBits2Float(0x3f2aaaab), /* 0.666667 */
SkBits2Float(0x3f5b6db7), /* 0.857143 */
SkBits2Float(0x3f2aaaab) /* 0.666667 */);
const SkPoint corners[] = {
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
{ SkBits2Float(0x00000000), SkBits2Float(0x00000000) }, /* 0.000000 0.000000 */
};
rrect is equal to copy
~~~~
### See Also
dump SkRect::dumpHex SkPath::dumpHex