SkRect Reference === ---

struct SkRect {

    SkScalar fLeft;
    SkScalar fTop;
    SkScalar fRight;
    SkScalar fBottom;

    static constexpr SkRect MakeEmpty();
    static constexpr SkRect MakeWH(SkScalar w, SkScalar h);
    static SkRect MakeIWH(int w, int h);
    static constexpr SkRect MakeSize(const SkSize& size);
    static constexpr SkRect MakeLTRB(SkScalar l, SkScalar t, SkScalar r,
                                     SkScalar b);
    static constexpr SkRect MakeXYWH(SkScalar x, SkScalar y, SkScalar w,
                                     SkScalar h);
    static SkRect Make(const SkISize& size);
    static SkRect Make(const SkIRect& irect);
    bool isEmpty() const;
    bool isSorted() const;
    bool isFinite() const;
    SkScalar x() const;
    SkScalar y() const;
    SkScalar left() const;
    SkScalar top() const;
    SkScalar right() const;
    SkScalar bottom() const;
    SkScalar width() const;
    SkScalar height() const;
    SkScalar centerX() const;
    SkScalar centerY() const;
    friend bool operator==(const SkRect& a, const SkRect& b);
    friend bool operator!=(const SkRect& a, const SkRect& b);
    void toQuad(SkPoint quad[4]) const;
    void setEmpty();
    void set(const SkIRect& src);
    void set(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom);
    void setLTRB(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom);
    void iset(int left, int top, int right, int bottom);
    void isetWH(int width, int height);
    void set(const SkPoint pts[], int count);
    void setBounds(const SkPoint pts[], int count);
    bool setBoundsCheck(const SkPoint pts[], int count);
    void setBoundsNoCheck(const SkPoint pts[], int count);
    void set(const SkPoint& p0, const SkPoint& p1);
    void setXYWH(SkScalar x, SkScalar y, SkScalar width, SkScalar height);
    void setWH(SkScalar width, SkScalar height);
    SkRect makeOffset(SkScalar dx, SkScalar dy) const;
    SkRect makeInset(SkScalar dx, SkScalar dy) const;
    SkRect makeOutset(SkScalar dx, SkScalar dy) const;
    void offset(SkScalar dx, SkScalar dy);
    void offset(const SkPoint& delta);
    void offsetTo(SkScalar newX, SkScalar newY);
    void inset(SkScalar dx, SkScalar dy);
    void outset(SkScalar dx, SkScalar dy);
    bool intersect(const SkRect& r);
    bool intersect(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom);
    bool intersect(const SkRect& a, const SkRect& b);
    bool intersects(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom) const;
    bool intersects(const SkRect& r) const;
    static bool Intersects(const SkRect& a, const SkRect& b);
    void join(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom);
    void join(const SkRect& r);
    void joinNonEmptyArg(const SkRect& r);
    void joinPossiblyEmptyRect(const SkRect& r);
    bool contains(SkScalar x, SkScalar y) const;
    bool contains(const SkRect& r) const;
    bool contains(const SkIRect& r) const;
    void round(SkIRect* dst) const;
    void roundOut(SkIRect* dst) const;
    void roundOut(SkRect* dst) const;
    void roundIn(SkIRect* dst) const;
    SkIRect round() const;
    SkIRect roundOut() const;
    void sort();
    SkRect makeSorted() const;
    const SkScalar* asScalars() const;
    void dump(bool asHex) const;
    void dump() const;
    void dumpHex() const;
};

SkRect holds four SkScalar coordinates describing the upper and lower bounds of a rectangle. SkRect may be created from outer bounds or from position, width, and height. SkRect describes an area; if its right is less than or equal to its left, or if its bottom is less than or equal to its top, it is considered empty. SkRect can be constructed from int values to avoid compiler warnings that integer input cannot convert to SkScalar without loss of precision.

Type	Member	Description
SkScalar	`fLeft`	May contain any value, including infinities and NaN. The smaller of the horizontal values when sorted. When equal to or greater than fRight, Rect is empty.
SkScalar	`fTop`	May contain any value, including infinities and NaN. The smaller of the vertical values when sorted. When equal to or greater than fBottom, Rect is empty.
SkScalar	`fRight`	May contain any value, including infinities and NaN. The larger of the horizontal values when sorted. When equal to or less than fLeft, Rect is empty.
SkScalar	`fBottom`	May contain any value, including infinities and NaN. The larger of the vertical values when sorted. When equal to or less than fTop, Rect is empty.

---

static constexpr SkRect MakeEmpty()

Returns constructed SkRect set to (0, 0, 0, 0). Many other rectangles are empty; if left is equal to or greater than right, or if top is equal to or greater than bottom. Setting all members to zero is a convenience, but does not designate a special empty rectangle. ### Return Value bounds (0, 0, 0, 0) ### Example

#### Example Output ~~~~ MakeEmpty isEmpty: true offset rect isEmpty: true inset rect isEmpty: true outset rect isEmpty: false ~~~~

### See Also isEmpty setEmpty SkIRect::MakeEmpty ---

static constexpr SkRect MakeWH(SkScalar w, SkScalar h)

Returns constructed SkRect set to SkScalar values (0, 0, w, h). Does not validate input; w or h may be negative. Passing integer values may generate a compiler warning since SkRect cannot represent 32-bit integers exactly. Use SkIRect for an exact integer rectangle. ### Parameters

`w`	SkScalar width of constructed SkRect
`h`	SkScalar height of constructed SkRect

### Return Value bounds (0, 0, w, h) ### Example

#### Example Output ~~~~ all equal ~~~~

### See Also MakeSize MakeXYWH MakeIWH setWH SkIRect::MakeWH ---

static SkRect MakeIWH(int w, int h)

Returns constructed SkRect set to integer values (0, 0, w, h). Does not validate input; w or h may be negative. Use to avoid a compiler warning that input may lose precision when stored. Use SkIRect for an exact integer rectangle. ### Parameters

`w`	integer width of constructed SkRect
`h`	integer height of constructed SkRect

### Return Value bounds (0, 0, w, h) ### Example

#### Example Output ~~~~ i_rect width: 25 f_rect width:25 i_rect width: 125000111 f_rect width:125000112 ~~~~

### See Also MakeXYWH MakeWH isetWH SkIRect::MakeWH ---

static constexpr SkRect MakeSize(const SkSize& size)

Returns constructed SkRect set to (0, 0, size.width(), size.height()). Does not validate input; size.width() or size.height() may be negative. ### Parameters

size SkScalar values for SkRect width and height

### Return Value bounds (0, 0, size.width(), size.height()) ### Example

#### Example Output ~~~~ rect width: 25.5 height: 35.5 floor width: 25 height: 35 ~~~~

### See Also MakeWH MakeXYWH MakeIWH setWH SkIRect::MakeWH ---

static constexpr SkRect MakeLTRB(SkScalar l, SkScalar t, SkScalar r, SkScalar b)

Returns constructed SkRect set to (l, t, r, b). Does not sort input; SkRect may result in fLeft greater than fRight, or fTop greater than fBottom. ### Parameters

`l`	SkScalar stored in fLeft
`t`	SkScalar stored in fTop
`r`	SkScalar stored in fRight
`b`	SkScalar stored in fBottom

### Return Value bounds (l, t, r, b) ### Example

#### Example Output ~~~~ rect: 5, 35, 15, 25 isEmpty: true rect: 5, 25, 15, 35 isEmpty: false ~~~~

### See Also MakeXYWH SkIRect::MakeLTRB ---

static constexpr SkRect MakeXYWH(SkScalar x, SkScalar y, SkScalar w, SkScalar h)

Returns constructed Rect set to (x, y, x + w, y + h). Does not validate input; w or h may be negative. ### Parameters

`x`	stored in fLeft
`y`	stored in fTop
`w`	added to x and stored in fRight
`h`	added to y and stored in fBottom

### Return Value bounds at (x, y) with width w and height h ### Example

#### Example Output ~~~~ rect: 5, 35, -10, 60 isEmpty: true rect: -10, 35, 5, 60 isEmpty: false ~~~~

### See Also MakeLTRB SkIRect::MakeXYWH ---

static SkRect Make(const SkISize& size)

Returns constructed SkIRect set to (0, 0, size.width(), size.height()). Does not validate input; size.width() or size.height() may be negative. ### Parameters

size integer values for SkRect width and height

### Return Value bounds (0, 0, size.width(), size.height()) ### Example

#### Example Output ~~~~ rect1 == rect2 ~~~~

### See Also MakeWH MakeXYWH SkRect::MakeIWH SkIRect::MakeSize ---

static SkRect Make(const SkIRect& irect)

Returns constructed SkIRect set to irect, promoting integers to scalar. Does not validate input; fLeft may be greater than fRight, fTop may be greater than fBottom. ### Parameters

irect integer unsorted bounds

### Return Value irect members converted to SkScalar ### Example

### See Also MakeLTRB ---

bool isEmpty()const

Returns true if fLeft is equal to or greater than fRight, or if fTop is equal to or greater than fBottom. Call sort() to reverse rectangles with negative width() or height(). ### Return Value true if width() or height() are zero or negative ### Example

#### Example Output ~~~~ rect: {20, 40, 10, 50} is empty sorted: {10, 40, 20, 50} is not empty rect: {20, 40, 20, 50} is empty sorted: {20, 40, 20, 50} is empty ~~~~

### See Also MakeEmpty sort SkIRect::isEmpty ---

bool isSorted()const

Returns true if fLeft is equal to or less than fRight, or if fTop is equal to or less than fBottom. Call sort() to reverse rectangles with negative width() or height(). ### Return Value true if width() or height() are zero or positive ### Example

#### Example Output ~~~~ rect: {20, 40, 10, 50} is not sorted sorted: {10, 40, 20, 50} is sorted rect: {20, 40, 20, 50} is sorted sorted: {20, 40, 20, 50} is sorted ~~~~

### See Also sort makeSorted isEmpty ---

bool isFinite()const

Returns true if all values in the rectangle are finite: SK_ScalarMin or larger, and SK_ScalarMax or smaller. ### Return Value true if no member is infinite or NaN ### Example

#### Example Output ~~~~ largest is finite: true large width inf widest is finite: false ~~~~

### See Also SkScalarIsFinite SkScalarIsNaN ---

SkScalar    x()const

Returns left edge of SkRect, if sorted. Call isSorted() to see if SkRect is valid. Call sort() to reverse fLeft and fRight if needed. ### Return Value fLeft ### Example

#### Example Output ~~~~ unsorted.fLeft: 15 unsorted.x(): 15 sorted.fLeft: 10 sorted.x(): 10 ~~~~

### See Also fLeft left() y() SkIRect::x() ---

SkScalar    y()const

Returns top edge of SkRect, if sorted. Call isEmpty() to see if SkRect may be invalid, and sort() to reverse fTop and fBottom if needed. ### Return Value fTop ### Example

#### Example Output ~~~~ unsorted.fTop: 25 unsorted.y(): 25 sorted.fTop: 5 sorted.y(): 5 ~~~~

### See Also fTop top() x() SkIRect::y() ---

SkScalar    left()const

Returns left edge of SkRect, if sorted. Call isSorted() to see if SkRect is valid. Call sort() to reverse fLeft and fRight if needed. ### Return Value fLeft ### Example

#### Example Output ~~~~ unsorted.fLeft: 15 unsorted.left(): 15 sorted.fLeft: 10 sorted.left(): 10 ~~~~

### See Also fLeft x() SkIRect::left() ---

SkScalar    top()const

Returns top edge of SkRect, if sorted. Call isEmpty() to see if SkRect may be invalid, and sort() to reverse fTop and fBottom if needed. ### Return Value fTop ### Example

#### Example Output ~~~~ unsorted.fTop: 25 unsorted.top(): 25 sorted.fTop: 5 sorted.top(): 5 ~~~~

### See Also fTop y() SkIRect::top() ---

SkScalar    right()const

Returns right edge of SkRect, if sorted. Call isSorted() to see if SkRect is valid. Call sort() to reverse fLeft and fRight if needed. ### Return Value fRight ### Example

#### Example Output ~~~~ unsorted.fRight: 10 unsorted.right(): 10 sorted.fRight: 15 sorted.right(): 15 ~~~~

### See Also fRight SkIRect::right() ---

SkScalar    bottom()const

Returns bottom edge of SkRect, if sorted. Call isEmpty() to see if SkRect may be invalid, and sort() to reverse fTop and fBottom if needed. ### Return Value fBottom ### Example

#### Example Output ~~~~ unsorted.fBottom: 5 unsorted.bottom(): 5 sorted.fBottom: 25 sorted.bottom(): 25 ~~~~

### See Also fBottom SkIRect::bottom() ---

SkScalar    width()const

Returns span on the x-axis. This does not check if SkRect is sorted, or if result fits in 32-bit float; result may be negative or infinity. ### Return Value fRight minus fLeft ### Example

Compare with SkIRect::width() example.

#### Example Output ~~~~ unsorted width: -5 large width: 4294967296 ~~~~

### See Also height() SkIRect::width() ---

SkScalar    height()const

Returns span on the y-axis. This does not check if SkRect is sorted, or if result fits in 32-bit float; result may be negative or infinity. ### Return Value fBottom minus fTop ### Example

Compare with SkIRect::height() example.

#### Example Output ~~~~ unsorted height: -5 large height: 4294967296 ~~~~

### See Also width() SkIRect::height() ---

SkScalar    centerX()const

Returns average of left edge and right edge. Result does not change if SkRect is sorted. Result may overflow to infinity if SkRect is far from the origin. ### Return Value midpoint on x-axis ### Example

#### Example Output ~~~~ left: 20 right: 41 centerX: 30.5 left: 20 right: 41 centerX: 30.5 left: -20 right: -41 centerX: -30.5 left: -41 right: -20 centerX: -30.5 ~~~~

### See Also centerY ---

SkScalar    centerY()const

Returns average of top edge and bottom edge. Result does not change if SkRect is sorted. ### Return Value midpoint on y-axis ### Example

#### Example Output ~~~~ left: 2e+38 right: 3e+38 centerX: 2.5e+38 safe mid x: 2.5e+38 ~~~~

### See Also centerX ---

bool operator==(const SkRect& a, const SkRect& b)

Returns true if all members in a: fLeft, fTop, fRight, and fBottom; are equal to the corresponding members 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 to compare
`b`	SkRect to compare

### Return Value true if members are equal ### Example

#### Example Output ~~~~ tests are equal {0, 0, 2, 2} == {-0, -0, 2, 2} and are numerically equal {0, 0, 2, 2} == {-0, -0, 2, 2} and are numerically equal {0, 0, 2, 2} == {-0, -0, 2, 2} and are numerically equal ~~~~

### See Also operator!=(const SkRect& a, const SkRect& b) ---

bool operator!=(const SkRect& a, const SkRect& b)

Returns true if any in a: fLeft, fTop, fRight, and fBottom; does not equal the corresponding members 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 to compare
`b`	SkRect to compare

### Return Value true if members are not equal ### Example

#### Example Output ~~~~ test with NaN is not equal to itself ~~~~

### See Also operator==(const SkRect& a, const SkRect& b) ---

void toQuad(SkPoint quad[4])const

Returns four points in quad that enclose SkRect ordered as: top-left, top-right, bottom-right, bottom-left. ### Parameters

quad storage for corners of SkRect

### Example

#### Example Output ~~~~ rect: {1, 2, 3, 4} corners: {1, 2} {3, 2} {3, 4} {1, 4} ~~~~

### See Also SkPath::addRect ---

void setBounds(const SkPoint pts[], int count)

Sets to bounds of SkPoint array with count entries. If count is zero or smaller, or if SkPoint array contains an infinity or NaN, sets to (0, 0, 0, 0). Result is either empty or sorted: fLeft is less than or equal to fRight, and fTop is less than or equal to fBottom. ### Parameters

`pts`	SkPoint array
`count`	entries in array

### Example

#### Example Output ~~~~ count: 0 rect: 0, 0, 0, 0 added: 3, 4 count: 1 rect: 3, 4, 3, 4 added: 1, 2 count: 2 rect: 1, 2, 3, 4 added: 5, 6 count: 3 rect: 1, 2, 5, 6 added: nan, 8 count: 4 rect: 0, 0, 0, 0 ~~~~

### See Also set setBoundsCheck SkPath::addPoly ---

bool setBoundsCheck(const SkPoint pts[], int count)

Sets to bounds of SkPoint array with count entries. Returns false if count is zero or smaller, or if SkPoint array contains an infinity or NaN; in these cases sets SkRect to (0, 0, 0, 0). Result is either empty or sorted: fLeft is less than or equal to fRight, and fTop is less than or equal to fBottom. ### Parameters

`pts`	SkPoint array
`count`	entries in array

### Return Value true if all SkPoint values are finite ### Example

#### Example Output ~~~~ count: 0 rect: 0, 0, 0, 0 success: true added: 3, 4 count: 1 rect: 3, 4, 3, 4 success: true added: 1, 2 count: 2 rect: 1, 2, 3, 4 success: true added: 5, 6 count: 3 rect: 1, 2, 5, 6 success: true added: nan, 8 count: 4 rect: 0, 0, 0, 0 success: false ~~~~

### See Also set setBounds SkPath::addPoly ---

void setBoundsNoCheck(const SkPoint pts[], int count)

Sets to bounds of SkPoint pts array with count entries. If any SkPoint in pts contains infinity or NaN, all SkRect dimensions are set to NaN. ### Parameters

`pts`	SkPoint array
`count`	entries in array

### Example

### See Also setBoundsCheck ---

void setEmpty()

Sets SkRect to (0, 0, 0, 0). Many other rectangles are empty; if left is equal to or greater than right, or if top is equal to or greater than bottom. Setting all members to zero is a convenience, but does not designate a special empty rectangle. ### Example

#### Example Output ~~~~ rect: {3, 4, 1, 2} is empty rect: {0, 0, 0, 0} is empty ~~~~

### See Also MakeEmpty SkIRect::setEmpty ---

void set(const SkIRect& src)

Sets SkRect to src, promoting src members from integer to scalar. Very large values in src may lose precision. ### Parameters

src integer SkRect

### Example

#### Example Output ~~~~ i_rect: {3, 4, 1, 2} f_rect: {3, 4, 1, 2} ~~~~

### See Also setLTRB SkIntToScalar ---

void set(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom)

Sets SkRect to (left, top, right, bottom). left and right are not sorted; left is not necessarily less than right. top and bottom are not sorted; top is not necessarily less than bottom. ### Parameters

`left`	stored in fLeft
`top`	stored in fTop
`right`	stored in fRight
`bottom`	stored in fBottom

### Example

#### Example Output ~~~~ rect1: {3, 4, 1, 2} rect2: {3, 4, 1, 2} ~~~~

### See Also setLTRB setXYWH SkIRect::set ---

void setLTRB(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom)

`left`	stored in fLeft
`top`	stored in fTop
`right`	stored in fRight
`bottom`	stored in fBottom

### Example

#### Example Output ~~~~ rect1: {3, 4, 1, 2} rect2: {3, 4, 1, 2} ~~~~

### See Also set setXYWH SkIRect::set ---

void set(const SkPoint pts[], int count)

Sets to bounds of SkPoint array with count entries. If count is zero or smaller, or if SkPoint array contains an infinity or NaN, sets SkRect to (0, 0, 0, 0). Result is either empty or sorted: fLeft is less than or equal to fRight, and fTop is less than or equal to fBottom. ### Parameters

`pts`	SkPoint array
`count`	entries in array

### Example

### See Also setBounds setBoundsCheck SkPath::addPoly ---

void set(const SkPoint& p0, const SkPoint& p1)

Sets bounds to the smallest SkRect enclosing SkPoint p0 and p1. The result is sorted and may be empty. Does not check to see if values are finite. ### Parameters

`p0`	corner to include
`p1`	corner to include

### Example

p0 and p1 may be swapped and have the same effect unless one contains NaN.

### See Also setBounds setBoundsCheck ---

void setXYWH(SkScalar x, SkScalar y, SkScalar width, SkScalar height)

Sets Rect to (x, y, x + width, y + height). Does not validate input; width or height may be negative. ### Parameters

`x`	stored in fLeft
`y`	stored in fTop
`width`	added to x and stored in fRight
`height`	added to y and stored in fBottom

### Example

#### Example Output ~~~~ rect: 5, 35, -10, 60 isEmpty: true rect: -10, 35, 5, 60 isEmpty: false ~~~~

### See Also MakeXYWH setLTRB set SkIRect::setXYWH ---

void setWH(SkScalar width, SkScalar height)

Sets SkRect to (0, 0, width, height). Does not validate input; width or height may be negative. ### Parameters

`width`	stored in fRight
`height`	stored in fBottom

### Example

#### Example Output ~~~~ rect: 0, 0, -15, 25 isEmpty: true rect: -15, 0, 0, 25 isEmpty: false ~~~~

### See Also MakeWH setXYWH isetWH ---

void iset(int left, int top, int right, int bottom)

Sets SkRect to (left, top, right, bottom). All parameters are promoted from integer to scalar. left and right are not sorted; left is not necessarily less than right. top and bottom are not sorted; top is not necessarily less than bottom. ### Parameters

`left`	promoted to SkScalar and stored in fLeft
`top`	promoted to SkScalar and stored in fTop
`right`	promoted to SkScalar and stored in fRight
`bottom`	promoted to SkScalar and stored in fBottom

### Example

#### Example Output ~~~~ rect1: {3, 4, 1, 2} rect2: {3, 4, 1, 2} ~~~~

### See Also set setLTRB SkIRect::set SkIntToScalar ---

void isetWH(int width, int height)

Sets SkRect to (0, 0, width, height). width and height may be zero or negative. width and height are promoted from integer to SkScalar, large values may lose precision. ### Parameters

`width`	promoted to SkScalar and stored in fRight
`height`	promoted to SkScalar and stored in fBottom

### Example

#### Example Output ~~~~ rect1: {0, 0, 1, 2} rect2: {0, 0, 1, 2} ~~~~

### See Also MakeWH MakeXYWH iset() SkIRect:MakeWH ---

SkRect makeOffset(SkScalar dx, SkScalar dy)const

Returns SkRect offset by (dx, dy). If dx is negative, SkRect returned is moved to the left. If dx is positive, SkRect returned is moved to the right. If dy is negative, SkRect returned is moved upward. If dy is positive, SkRect returned is moved downward. ### Parameters

`dx`	added to fLeft and fRight
`dy`	added to fTop and fBottom

### Return Value SkRect offset on axes, with original width and height ### Example

#### Example Output ~~~~ rect: 10, 50, 20, 60 isEmpty: false rect: 25, 82, 35, 92 isEmpty: false ~~~~

### See Also offset() makeInset makeOutset SkIRect::makeOffset ---

SkRect makeInset(SkScalar dx, SkScalar dy)const

Returns SkRect, inset by (dx, dy). If dx is negative, SkRect returned is wider. If dx is positive, SkRect returned is narrower. If dy is negative, SkRect returned is taller. If dy is positive, SkRect returned is shorter. ### Parameters

`dx`	added to fLeft and subtracted from fRight
`dy`	added to fTop and subtracted from fBottom

### Return Value SkRect inset symmetrically left and right, top and bottom ### Example

#### Example Output ~~~~ rect: 10, 50, 20, 60 isEmpty: false rect: 25, 82, 5, 28 isEmpty: true ~~~~

### See Also inset() makeOffset makeOutset SkIRect::makeInset ---

SkRect makeOutset(SkScalar dx, SkScalar dy)const

Returns SkRect, outset by (dx, dy). If dx is negative, SkRect returned is narrower. If dx is positive, SkRect returned is wider. If dy is negative, SkRect returned is shorter. If dy is positive, SkRect returned is taller. ### Parameters

`dx`	subtracted to fLeft and added from fRight
`dy`	subtracted to fTop and added from fBottom

### Return Value SkRect outset symmetrically left and right, top and bottom ### Example

#### Example Output ~~~~ rect: 10, 50, 20, 60 isEmpty: false rect: -5, 18, 35, 92 isEmpty: false ~~~~

### See Also outset() makeOffset makeInset SkIRect::makeOutset ---

void offset(SkScalar dx, SkScalar dy)

Offsets SkRect by adding dx to fLeft, fRight; and by adding dy to fTop, fBottom. If dx is negative, moves SkRect to the left. If dx is positive, moves SkRect to the right. If dy is negative, moves SkRect upward. If dy is positive, moves SkRect downward. ### Parameters

`dx`	offset added to fLeft and fRight
`dy`	offset added to fTop and fBottom

### Example

#### Example Output ~~~~ rect: 15, 27, 55, 86 ~~~~

### See Also offsetTo makeOffset SkIRect::offset ---

void offset(const SkPoint& delta)

Offsets SkRect by adding delta.fX to fLeft, fRight; and by adding delta.fY to fTop, fBottom. If delta.fX is negative, moves SkRect to the left. If delta.fX is positive, moves SkRect to the right. If delta.fY is negative, moves SkRect upward. If delta.fY is positive, moves SkRect downward. ### Parameters

delta added to SkRect

### Example

#### Example Output ~~~~ rect: 15, 27, 55, 86 ~~~~

### See Also offsetTo makeOffset SkIRect::offset ---

void offsetTo(SkScalar newX, SkScalar newY)

Offsets SkRect so that fLeft equals newX, and fTop equals newY. width and height are unchanged. ### Parameters

`newX`	stored in fLeft, preserving width()
`newY`	stored in fTop, preserving height()

### Example

#### Example Output ~~~~ rect: 15, 27, 55, 86 ~~~~

### See Also offset makeOffset setXYWH SkIRect::offsetTo ---

void inset(SkScalar dx, SkScalar dy)

Insets SkRect by (dx, dy). If dx is positive, makes SkRect narrower. If dx is negative, makes SkRect wider. If dy is positive, makes SkRect shorter. If dy is negative, makes SkRect taller. ### Parameters

`dx`	added to fLeft and subtracted from fRight
`dy`	added to fTop and subtracted from fBottom

### Example

#### Example Output ~~~~ rect: 15, 27, 45, 60 ~~~~

### See Also outset makeInset SkIRect::inset ---

void outset(SkScalar dx, SkScalar dy)

Outsets SkRect by (dx, dy). If dx is positive, makes SkRect wider. If dx is negative, makes SkRect narrower. If dy is positive, makes SkRect taller. If dy is negative, makes SkRect shorter. ### Parameters

`dx`	subtracted to fLeft and added from fRight
`dy`	subtracted to fTop and added from fBottom

### Example

#### Example Output ~~~~ rect: 5, 1, 55, 86 ~~~~

### See Also inset makeOutset SkIRect::outset Rects intersect when they enclose a common area. To intersect, each of the pair must describe area; fLeft is less than fRight, and fTop is less than fBottom; isEmpty() returns false. The intersection of Rect pair can be described by:

(max(a.fLeft, b.fLeft), max(a.fTop, b.fTop),
min(a.fRight, b.fRight), min(a.fBottom, b.fBottom))

. The intersection is only meaningful if the resulting Rect is not empty and describes an area: fLeft is less than fRight, and fTop is less than fBottom. ---

bool contains(SkScalar x, SkScalar y)const

Returns true if: fLeft <= x < fRight && fTop <= y < fBottom. Returns false if SkRect is empty. ### Parameters

`x`	test SkPoint x-coordinate
`y`	test SkPoint y-coordinate

### Return Value true if (x, y) is inside SkRect ### Example

#### Example Output ~~~~ rect: (30, 50, 40, 60) contains (30, 50) rect: (30, 50, 40, 60) does not contain (39, 49) rect: (30, 50, 40, 60) does not contain (29, 59) ~~~~

### See Also SkIRect::contains SkRRect::contains ---

bool contains(const SkRect& r)const

Returns true if SkRect contains r. Returns false if SkRect is empty or r is empty. SkRect contains r when SkRect area completely includes r area. ### Parameters

`r`	SkRect contained

### Return Value true if all sides of SkRect are outside r ### Example

#### Example Output ~~~~ rect: (30, 50, 40, 60) contains (30, 50, 31, 51) rect: (30, 50, 40, 60) does not contain (39, 49, 40, 50) rect: (30, 50, 40, 60) does not contain (29, 59, 30, 60) ~~~~

### See Also SkIRect::contains ---

bool contains(const SkIRect& r)const

Returns true if SkRect contains r. Returns false if SkRect is empty or r is empty. SkRect contains r when SkRect area completely includes r area. ### Parameters

`r`	SkIRect contained

### Return Value true if all sides of SkRect are outside r ### Example

#### Example Output ~~~~ rect: (30, 50, 40, 60) contains (30, 50, 31, 51) rect: (30, 50, 40, 60) does not contain (39, 49, 40, 50) rect: (30, 50, 40, 60) does not contain (29, 59, 30, 60) ~~~~

### See Also SkIRect::contains ---

bool intersect(const SkRect& r)

Returns true if SkRect intersects r, and sets SkRect to intersection. Returns false if SkRect does not intersect r, and leaves SkRect unchanged. Returns false if either r or SkRect is empty, leaving SkRect unchanged. ### Parameters

`r`	limit of result

### Return Value true if r and SkRect have area in common ### Example

Two SkDebugf calls are required. If the calls are combined, their arguments may not be evaluated in left to right order: the printed intersection may be before or after the call to intersect.

#### Example Output ~~~~ intersection: 30, 60, 50, 80 ~~~~

### See Also intersects Intersects join SkIRect::intersect ---

bool intersect(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom)

Constructs SkRect to intersect from (left, top, right, bottom). Does not sort construction. Returns true if SkRect intersects construction, and sets SkRect to intersection. Returns false if SkRect does not intersect construction, and leaves SkRect unchanged. Returns false if either construction or SkRect is empty, leaving SkRect unchanged. ### Parameters

`left`	x-axis minimum of constructed SkRect
`top`	y-axis minimum of constructed SkRect
`right`	x-axis maximum of constructed SkRect
`bottom`	y-axis maximum of constructed SkRect

### Return Value true if construction and SkRect have area in common ### Example

Two SkDebugf calls are required. If the calls are combined, their arguments may not be evaluated in left to right order: the printed intersection may be before or after the call to intersect.

#### Example Output ~~~~ intersection: 30, 60, 50, 80 ~~~~

### See Also intersects Intersects join SkIRect::intersect ---

bool intersect(const SkRect& a, const SkRect& b)

Returns true if a intersects b, and sets SkRect to intersection. Returns false if a does not intersect b, and leaves SkRect unchanged. Returns false if either a or b is empty, leaving SkRect unchanged. ### Parameters

`a`	SkRect to intersect
`b`	SkRect to intersect

### Return Value true if a and b have area in common ### Example

#### Example Output ~~~~ intersection: 30, 60, 50, 80 ~~~~

### See Also intersects Intersects join SkIRect::intersect ---

bool intersects(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom)const

Constructs SkRect to intersect from (left, top, right, bottom). Does not sort construction. Returns true if SkRect intersects construction. Returns false if either construction or SkRect is empty, or do not intersect. ### Parameters

`left`	x-axis minimum of constructed SkRect
`top`	y-axis minimum of constructed SkRect
`right`	x-axis maximum of constructed SkRect
`bottom`	y-axis maximum of constructed SkRect

### Return Value true if construction and SkRect have area in common ### Example

#### Example Output ~~~~ intersection ~~~~

### See Also intersect Intersects SkIRect::Intersects ---

bool intersects(const SkRect& r)const

Returns true if SkRect intersects r. Returns false if either r or SkRect is empty, or do not intersect. ### Parameters

`r`	SkRect to intersect

### Return Value true if r and SkRect have area in common ### Example

#### Example Output ~~~~ intersection ~~~~

### See Also intersect Intersects SkIRect::Intersects ---

static bool Intersects(const SkRect& a, const SkRect& b)

Returns true if a intersects b. Returns false if either a or b is empty, or do not intersect. ### Parameters

`a`	SkRect to intersect
`b`	SkRect to intersect

### Return Value true if a and b have area in common ### Example

#### Example Output ~~~~ intersection ~~~~

### See Also intersect intersects SkIRect::Intersects ---

void join(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom)

Constructs SkRect to intersect from (left, top, right, bottom). Does not sort construction. Sets SkRect to the union of itself and the construction. Has no effect if construction is empty. Otherwise, if SkRect is empty, sets SkRect to construction. ### Parameters

`left`	x-axis minimum of constructed SkRect
`top`	y-axis minimum of constructed SkRect
`right`	x-axis maximum of constructed SkRect
`bottom`	y-axis maximum of constructed SkRect

### Example

#### Example Output ~~~~ join: 10, 20, 55, 65 ~~~~

### See Also joinNonEmptyArg joinPossiblyEmptyRect SkIRect::join ---

void join(const SkRect& r)

Sets SkRect to the union of itself and r. Has no effect if r is empty. Otherwise, if SkRect is empty, sets SkRect to r. ### Parameters

`r`	expansion SkRect

### Example

#### Example Output ~~~~ join: 10, 20, 55, 65 ~~~~

### See Also joinNonEmptyArg joinPossiblyEmptyRect SkIRect::join ---

void joinNonEmptyArg(const SkRect& r)

Sets SkRect to the union of itself and r. Asserts if r is empty and SK_DEBUG is defined. If SkRect is empty, sets SkRect to r. May produce incorrect results if r is empty. ### Parameters

`r`	expansion SkRect

### Example

Since Rect is not sorted, first result is copy of toJoin.

#### Example Output ~~~~ rect: 50, 60, 55, 65 sorted: 10, 0, 55, 100 ~~~~

### See Also join joinPossiblyEmptyRect SkIRect::join ---

void joinPossiblyEmptyRect(const SkRect& r)

Sets SkRect to the union of itself and the construction. May produce incorrect results if SkRect or r is empty. ### Parameters

`r`	expansion SkRect

### Example

Since Rect is not sorted, first result is not useful.

#### Example Output ~~~~ rect: 10, 60, 55, 65 sorted: 10, 0, 55, 100 ~~~~

### See Also joinNonEmptyArg join SkIRect::join ---

void round(SkIRect* dst)const

Sets IRect by adding 0.5 and discarding the fractional portion of Rect members, using

(SkScalarRoundToInt(fLeft), SkScalarRoundToInt(fTop),
SkScalarRoundToInt(fRight), SkScalarRoundToInt(fBottom))

. ### Parameters

dst storage for IRect

### Example

#### Example Output ~~~~ round: 31, 51, 41, 61 ~~~~

### See Also roundIn roundOut SkScalarRoundToInt ---

void roundOut(SkIRect* dst)const

Sets IRect by discarding the fractional portion of fLeft and fTop; and rounding up fRight and fBottom, using

(SkScalarFloorToInt(fLeft), SkScalarFloorToInt(fTop),
SkScalarCeilToInt(fRight), SkScalarCeilToInt(fBottom))

. ### Parameters

dst storage for IRect

### Example

#### Example Output ~~~~ round: 30, 50, 41, 61 ~~~~

### See Also roundIn round SkScalarRoundToInt ---

void roundOut(SkRect* dst)const

Sets Rect by discarding the fractional portion of fLeft and fTop; and rounding up fRight and fBottom, using

(SkScalarFloorToInt(fLeft), SkScalarFloorToInt(fTop),
SkScalarCeilToInt(fRight), SkScalarCeilToInt(fBottom))

. ### Parameters

dst storage for Rect

### Example

#### Example Output ~~~~ round: 30, 50, 41, 61 ~~~~

### See Also roundIn round SkScalarRoundToInt ---

void roundIn(SkIRect* dst)const

Sets Rect by rounding up fLeft and fTop; and discarding the fractional portion of fRight and fBottom, using

(SkScalarCeilToInt(fLeft), SkScalarCeilToInt(fTop),
SkScalarFloorToInt(fRight), SkScalarFloorToInt(fBottom))

. ### Parameters

dst storage for IRect

### Example

#### Example Output ~~~~ round: 31, 51, 40, 60 ~~~~

### See Also roundOut round SkScalarRoundToInt ---

SkIRect round()const

Returns IRect by adding 0.5 and discarding the fractional portion of Rect members, using

(SkScalarRoundToInt(fLeft), SkScalarRoundToInt(fTop),
SkScalarRoundToInt(fRight), SkScalarRoundToInt(fBottom))

. ### Return Value rounded IRect ### Example

#### Example Output ~~~~ round: 31, 51, 41, 61 ~~~~

### See Also roundOut roundIn SkScalarRoundToInt ---

SkIRect roundOut()const

Sets IRect by discarding the fractional portion of fLeft and fTop; and rounding up fRight and fBottom, using

(SkScalarFloorToInt(fLeft), SkScalarFloorToInt(fTop),
SkScalarCeilToInt(fRight), SkScalarCeilToInt(fBottom))

. ### Return Value rounded IRect ### Example

#### Example Output ~~~~ round: 30, 50, 41, 61 ~~~~

### See Also round roundIn SkScalarRoundToInt ---

void sort()

Swaps fLeft and fRight if fLeft is greater than fRight; and swaps fTop and fBottom if fTop is greater than fBottom. Result may be empty; and width() and height() will be zero or positive. ### Example

#### Example Output ~~~~ rect: 30.5, 50.5, 20.5, 10.5 sorted: 20.5, 10.5, 30.5, 50.5 ~~~~

### See Also makeSorted SkIRect::sort isSorted ---

SkRect makeSorted()const

Returns SkRect with fLeft and fRight swapped if fLeft is greater than fRight; and with fTop and fBottom swapped if fTop is greater than fBottom. Result may be empty; and width() and height() will be zero or positive. ### Return Value sorted SkRect ### Example

#### Example Output ~~~~ rect: 30.5, 50.5, 20.5, 10.5 sorted: 20.5, 10.5, 30.5, 50.5 ~~~~

### See Also sort SkIRect::makeSorted isSorted ---

const SkScalar* asScalars()const

Returns pointer to first scalar in SkRect, to treat it as an array with four entries. ### Return Value pointer to fLeft ### Example

#### Example Output ~~~~ rect.asScalars() == &rect.fLeft ~~~~

### See Also toQuad ---

void dump(bool asHex)const

Writes text representation of SkRect to standard output. Set asHex to true to generate exact binary representations of floating point numbers. ### Parameters

asHex true if SkScalar values are written as hexadecimal

### Example

#### Example Output ~~~~ SkRect::MakeLTRB(20, 30, 40, 50); SkRect::MakeLTRB(SkBits2Float(0x41a00000), /* 20.000000 */ SkBits2Float(0x41f00000), /* 30.000000 */ SkBits2Float(0x42200000), /* 40.000000 */ SkBits2Float(0x42480000) /* 50.000000 */); ~~~~

### See Also dumpHex ---

void dump()const

Writes text representation of SkRect 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 SkRect from output. ### Example

#### Example Output ~~~~ SkRect::MakeLTRB(0.857143f, 0.666667f, 2.6f, 7); rect is not equal to copy ~~~~

### See Also dumpHex ---

void dumpHex()const

Writes text representation of Rect 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 Rect. Use instead of dump() when submitting bug reports against Skia . ### Example

#### Example Output ~~~~ SkRect::MakeLTRB(SkBits2Float(0x3f5b6db7), /* 0.857143 */ SkBits2Float(0x3f2aaaab), /* 0.666667 */ SkBits2Float(0x40266666), /* 2.600000 */ SkBits2Float(0x40e00000) /* 7.000000 */); rect is equal to copy ~~~~

### See Also dump