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skia / skia / refs/heads/chrome/m64 / . / docs / SkIRect_Reference.bmh
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#Topic IRect
#Alias IRect_Reference
#Struct SkIRect
SkIRect holds four 32 bit integer coordinates describing the upper and
lower bounds of a rectangle. SkIRect may be created from outer bounds or
from position, width, and height. SkIRect 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.
#Topic Overview
#Subtopic Subtopics
#ToDo manually add subtopics ##
#Table
#Legend
# topics # description ##
#Legend ##
#Table ##
##
#Subtopic Operators
#Table
#Legend
# description # function ##
#Legend ##
# bool operator!=(const SkIRect& a, const SkIRect& b) # Returns true if members are unequal. ##
# bool operator==(const SkIRect& a, const SkIRect& b) # Returns true if members are equal. ##
#Table ##
#Subtopic ##
#Subtopic Member_Functions
#Table
#Legend
# description # function ##
#Legend ##
# EmptyIRect # Returns immutable bounds of (0, 0, 0, 0). ##
# Intersects # Returns true if areas overlap. ##
# IntersectsNoEmptyCheck # Returns true if areas overlap. Skips empty check. ##
# MakeEmpty # Returns bounds of (0, 0, 0, 0). ##
# MakeLTRB # Constructs from int left, top, right, bottom. ##
# MakeLargest # Constructs from (SK_MinS32, SK_MinS32, SK_MaxS32, SK_MaxS32). ##
# MakeSize # Constructs from ISize returning (0, 0, width, height). ##
# MakeWH # Constructs from int input returning (0, 0, width, height). ##
# MakeXYWH # Constructs from int input returning (x, y, width, height). ##
# bottom() # Returns larger bounds in y, if sorted. ##
# centerX # Returns midpoint in x. ##
# centerY # Returns midpoint in y. ##
# contains() # Returns true if points are equal or inside. ##
# containsNoEmptyCheck # Returns true if points are equal or inside. Skips empty check. ##
# height() # Returns span in y. ##
# inset() # Moves the sides symmetrically about the center. ##
# intersect # Sets to shared area; returns true if not empty. ##
# intersectNoEmptyCheck # Sets to shared area; returns true if not empty. Skips empty check. ##
# is16Bit # Returns true if members fit in 16-bit word. ##
# isEmpty # Returns true if width or height are zero or negative. ##
# isLargest # Returns true if equal to (SK_MinS32, SK_MinS32, SK_MaxS32, SK_MaxS32). ##
# join() # Sets to union of bounds. ##
# left() # Returns smaller bounds in x, if sorted. ##
# makeInset # Constructs from sides moved symmetrically about the center. ##
# makeOffset # Constructs from translated sides. ##
# makeOutset # Constructs from sides moved symmetrically about the center. ##
# makeSorted # Constructs, ordering sides from smaller to larger. ##
# offset() # Translates sides without changing width and height. ##
# offsetTo # Translates to (x, y) without changing width and height. ##
# outset() # Moves the sides symmetrically about the center. ##
# quickReject # Returns true if rectangles do not intersect. ##
# right() # Returns larger bounds in x, if sorted. ##
# set() # Sets to (left, top, right, bottom). ##
# setEmpty # Sets to (0, 0, 0, 0). ##
# setLTRB # Sets to SkScalar input (left, top, right, bottom). ##
# setLargest # Sets to (SK_MinS32, SK_MinS32, SK_MaxS32, SK_MaxS32). ##
# setLargestInverted # Sets to (SK_MaxS32, SK_MaxS32, SK_MinS32, SK_MinS32). ##
# setXYWH # Sets to (x, y, width, height). ##
# size() # Returns ISize (width, height). ##
# sort() # Orders sides from smaller to larger. ##
# top() # Returns smaller bounds in y, if sorted. ##
# width() # Returns span in x. ##
# x() # Returns bounds left. ##
# y() # Returns bounds top. ##
#Table ##
#Subtopic ##
#Topic ##
#Member int32_t fLeft
May contain any value. The smaller of the horizontal values when sorted.
When equal to or greater than fRight, IRect is empty.
##
#Member int32_t fTop
May contain any value. The smaller of the horizontal values when sorted.
When equal to or greater than fBottom, IRect is empty.
##
#Member int32_t fRight
May contain any value. The larger of the vertical values when sorted.
When equal to or less than fLeft, IRect is empty.
##
#Member int32_t fBottom
May contain any value. The larger of the vertical values when sorted.
When equal to or less than fTop, IRect is empty.
##
# ------------------------------------------------------------------------------
#Method static constexpr SkIRect SK_WARN_UNUSED_RESULT MakeEmpty()
Returns constructed IRect 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 bounds (0, 0, 0, 0) ##
#Example
SkIRect rect = SkIRect::MakeEmpty();
SkDebugf("MakeEmpty isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
rect.offset(10, 10);
SkDebugf("offset rect isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
rect.inset(10, 10);
SkDebugf("inset rect isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
rect.outset(20, 20);
SkDebugf("outset rect isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
#StdOut
MakeEmpty isEmpty: true
offset rect isEmpty: true
inset rect isEmpty: true
outset rect isEmpty: false
##
##
#SeeAlso EmptyIRect isEmpty setEmpty setLargestInverted SkRect::MakeEmpty
##
# ------------------------------------------------------------------------------
#Method static SkIRect SK_WARN_UNUSED_RESULT MakeLargest()
Returns constructed IRect setting left and top to most negative value, and
setting right and bottom to most positive value.
#Return bounds (SK_MinS32, SK_MinS32, SK_MaxS32, SK_MaxS32) ##
#Example
SkIRect rect = SkIRect::MakeLargest();
SkDebugf("MakeLargest isLargest: %s\n", rect.isLargest() ? "true" : "false");
SkDebugf("MakeLargest isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
rect.outset(1, 1);
SkDebugf("outset isLargest: %s\n", rect.isLargest() ? "true" : "false");
SkDebugf("outset isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
#StdOut
MakeLargest isLargest: true
MakeLargest isEmpty: false
outset isLargest: false
outset isEmpty: true
##
##
#SeeAlso isLargest setLargest SkRect::MakeLargest
##
# ------------------------------------------------------------------------------
#Method static constexpr SkIRect SK_WARN_UNUSED_RESULT MakeWH(int32_t w, int32_t h)
Returns constructed IRect set to (0, 0, w, h). Does not validate input; w or h
may be negative.
#Param w width of constructed Rect ##
#Param h height of constructed Rect ##
#Return bounds (0, 0, w, h) ##
#Example
SkIRect rect1 = SkIRect::MakeWH(25, 35);
SkIRect rect2 = SkIRect::MakeSize({25, 35});
SkIRect rect3 = SkIRect::MakeXYWH(0, 0, 25, 35);
SkIRect rect4 = SkIRect::MakeLTRB(0, 0, 25, 35);
SkDebugf("all %s" "equal\n", rect1 == rect2 && rect2 == rect3 && rect3 == rect4 ?
"" : "not ");
#StdOut
all equal
##
##
#SeeAlso MakeSize MakeXYWH SkRect::MakeWH SkRect::MakeIWH
##
# ------------------------------------------------------------------------------
#Method static constexpr SkIRect SK_WARN_UNUSED_RESULT MakeSize(const SkISize& size)
Returns constructed IRect set to (0, 0, size.width(), size.height()).
Does not validate input; size.width() or size.height() may be negative.
#Param size values for Rect width and height ##
#Return bounds (0, 0, size.width(), size.height()) ##
#Example
SkSize size = {25.5f, 35.5f};
SkIRect rect = SkIRect::MakeSize(size.toRound());
SkDebugf("round width: %d height: %d\n", rect.width(), rect.height());
rect = SkIRect::MakeSize(size.toFloor());
SkDebugf("floor width: %d height: %d\n", rect.width(), rect.height());
#StdOut
round width: 26 height: 36
floor width: 25 height: 35
##
##
#SeeAlso MakeWH MakeXYWH SkRect::Make SkRect::MakeIWH
##
# ------------------------------------------------------------------------------
#Method static constexpr SkIRect SK_WARN_UNUSED_RESULT MakeLTRB(int32_t l, int32_t t, int32_t r, int32_t b)
Returns constructed IRect set to (l, t, r, b). Does not sort input; Rect may
result in fLeft greater than fRight, or fTop greater than fBottom.
#Param l integer stored in fLeft ##
#Param t integer stored in fTop ##
#Param r integer stored in fRight ##
#Param b integer stored in fBottom ##
#Return bounds (l, t, r, b) ##
#Example
SkIRect rect = SkIRect::MakeLTRB(5, 35, 15, 25);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect.sort();
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 5, 35, 15, 25 isEmpty: true
rect: 5, 25, 15, 35 isEmpty: false
##
##
#SeeAlso MakeXYWH SkRect::MakeLTRB
##
# ------------------------------------------------------------------------------
#Method static constexpr SkIRect SK_WARN_UNUSED_RESULT MakeXYWH(int32_t x, int32_t y, int32_t w, int32_t h)
Returns constructed IRect set to:
#Formula
(x, y, x + w, y + h)
##
. Does not validate input;
w or h may be negative.
#Param x stored in fLeft ##
#Param y stored in fTop ##
#Param w added to x and stored in fRight ##
#Param h added to y and stored in fBottom ##
#Return bounds at (x, y) with width w and height h ##
#Example
SkIRect rect = SkIRect::MakeXYWH(5, 35, -15, 25);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect.sort();
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 5, 35, -10, 60 isEmpty: true
rect: -10, 35, 5, 60 isEmpty: false
##
##
#SeeAlso MakeLTRB SkRect::MakeXYWH
##
# ------------------------------------------------------------------------------
#Method int left() const
Returns left edge of IRect, if sorted.
Call sort() to reverse fLeft and fRight if needed.
#Return fLeft ##
#Example
SkIRect unsorted = { 15, 5, 10, 25 };
SkDebugf("unsorted.fLeft: %d unsorted.left(): %d\n", unsorted.fLeft, unsorted.left());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fLeft: %d sorted.left(): %d\n", sorted.fLeft, sorted.left());
#StdOut
unsorted.fLeft: 15 unsorted.left(): 15
sorted.fLeft: 10 sorted.left(): 10
##
##
#SeeAlso fLeft x() SkRect::left()
##
# ------------------------------------------------------------------------------
#Method int top() const
Returns top edge of IRect, if sorted. Call isEmpty to see if IRect may be invalid,
and sort() to reverse fTop and fBottom if needed.
#Return fTop ##
#Example
SkIRect unsorted = { 15, 25, 10, 5 };
SkDebugf("unsorted.fTop: %d unsorted.top(): %d\n", unsorted.fTop, unsorted.top());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fTop: %d sorted.top(): %d\n", sorted.fTop, sorted.top());
#StdOut
unsorted.fTop: 25 unsorted.top(): 25
sorted.fTop: 5 sorted.top(): 5
##
##
#SeeAlso fTop y() SkRect::top()
##
# ------------------------------------------------------------------------------
#Method int right() const
Returns right edge of IRect, if sorted.
Call sort() to reverse fLeft and fRight if needed.
#Return fRight ##
#Example
SkIRect unsorted = { 15, 25, 10, 5 };
SkDebugf("unsorted.fRight: %d unsorted.right(): %d\n", unsorted.fRight, unsorted.right());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fRight: %d sorted.right(): %d\n", sorted.fRight, sorted.right());
#StdOut
unsorted.fRight: 10 unsorted.right(): 10
sorted.fRight: 15 sorted.right(): 15
##
##
#SeeAlso fRight SkRect::right()
##
# ------------------------------------------------------------------------------
#Method int bottom() const
Returns bottom edge of IRect, if sorted. Call isEmpty to see if IRect may be invalid,
and sort() to reverse fTop and fBottom if needed.
#Return fBottom ##
#Example
SkIRect unsorted = { 15, 25, 10, 5 };
SkDebugf("unsorted.fBottom: %d unsorted.bottom(): %d\n", unsorted.fBottom, unsorted.bottom());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fBottom: %d sorted.bottom(): %d\n", sorted.fBottom, sorted.bottom());
#StdOut
unsorted.fBottom: 5 unsorted.bottom(): 5
sorted.fBottom: 25 sorted.bottom(): 25
##
##
#SeeAlso fBottom SkRect::bottom()
##
# ------------------------------------------------------------------------------
#Method int x() const
Returns left edge of IRect, if sorted. Call isEmpty to see if IRect may be invalid,
and sort() to reverse fLeft and fRight if needed.
#Return fLeft ##
#Example
SkIRect unsorted = { 15, 5, 10, 25 };
SkDebugf("unsorted.fLeft: %d unsorted.x(): %d\n", unsorted.fLeft, unsorted.x());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fLeft: %d sorted.x(): %d\n", sorted.fLeft, sorted.x());
#StdOut
unsorted.fLeft: 15 unsorted.x(): 15
sorted.fLeft: 10 sorted.x(): 10
##
##
#SeeAlso fLeft left() y() SkRect::x()
##
# ------------------------------------------------------------------------------
#Method int y() const
Returns top edge of IRect, if sorted. Call isEmpty to see if IRect may be invalid,
and sort() to reverse fTop and fBottom if needed.
#Return fTop ##
#Example
SkIRect unsorted = { 15, 25, 10, 5 };
SkDebugf("unsorted.fTop: %d unsorted.y(): %d\n", unsorted.fTop, unsorted.y());
SkIRect sorted = unsorted.makeSorted();
SkDebugf("sorted.fTop: %d sorted.y(): %d\n", sorted.fTop, sorted.y());
#StdOut
unsorted.fTop: 25 unsorted.y(): 25
sorted.fTop: 5 sorted.y(): 5
##
##
#SeeAlso fTop top() x() SkRect::y()
##
# ------------------------------------------------------------------------------
#Method int width() const
Returns span on the x-axis. This does not check if IRect is sorted, or if
result fits in 32-bit signed integer; result may be negative.
#Return fRight minus fLeft ##
#Example
SkIRect unsorted = { 15, 25, 10, 5 };
SkDebugf("unsorted width: %d\n", unsorted.width());
SkIRect large = { -2147483647, 1, 2147483644, 2 };
SkDebugf("large width: %d\n", large.width());
#StdOut
unsorted width: -5
large width: -5
##
##
#SeeAlso height() SkRect::width()
##
# ------------------------------------------------------------------------------
#Method int height() const
Returns span on the y-axis. This does not check if IRect is sorted, or if
result fits in 32-bit signed integer; result may be negative.
#Return fBottom minus fTop ##
#Example
SkIRect unsorted = { 15, 25, 10, 20 };
SkDebugf("unsorted height: %d\n", unsorted.height());
SkIRect large = { 1, -2147483647, 2, 2147483644 };
SkDebugf("large height: %d\n", large.height());
#StdOut
unsorted height: -5
large height: -5
##
##
#SeeAlso width() SkRect::height()
##
# ------------------------------------------------------------------------------
#Method SkISize size() const
Returns spans on the x-axis and y-axis. This does not check if IRect is sorted,
or if result fits in 32-bit signed integer; result may be negative.
#Return ISize (width, height) ##
#Example
auto debugster = [](const char* prefix, const SkIRect& rect) -> void {
SkISize size = rect.size();
SkDebugf("%s ", prefix);
SkDebugf("rect: %d, %d, %d, %d ", rect.left(), rect.top(), rect.right(), rect.bottom());
SkDebugf("size: %d, %d\n", size.width(), size.height());
};
SkIRect rect = {20, 30, 40, 50};
debugster("original", rect);
rect.offset(20, 20);
debugster(" offset", rect);
rect.outset(20, 20);
debugster(" outset", rect);
#StdOut
original rect: 20, 30, 40, 50 size: 20, 20
offset rect: 40, 50, 60, 70 size: 20, 20
outset rect: 20, 30, 80, 90 size: 60, 60
##
##
#SeeAlso height() width() MakeSize
##
# ------------------------------------------------------------------------------
#Method int centerX() const
Returns average of left edge and right edge. Result does not change if Rect
is sorted. Result may be incorrect if Rect is far from the origin.
Result is rounded down.
#Return midpoint in x ##
#Example
#Description
Dividing by two rounds towards zero. centerX uses a bit shift and rounds down.
##
SkIRect tests[] = {{20, 30, 41, 51}, {-20, -30, -41, -51}, {-10, -10, 11, 11}};
for (auto rect : tests) {
SkDebugf("left: %3d right: %3d centerX: %3d ", rect.left(), rect.right(), rect.centerX());
SkDebugf("div2: %3d\n", (rect.left() + rect.right()) / 2);
}
#StdOut
left: 20 right: 41 centerX: 30 div2: 30
left: -20 right: -41 centerX: -31 div2: -30
left: -10 right: 11 centerX: 0 div2: 0
##
##
#SeeAlso centerY SkRect::centerX
##
# ------------------------------------------------------------------------------
#Method int centerY() const
Returns average of top edge and bottom edge. Result does not change if Rect
is sorted. Result may be incorrect if Rect is far from the origin.
Result is rounded down.
#Return midpoint in y ##
#Example
SkIRect rect = { 0, 0, 2, 2 };
rect.offset(0x40000000, 0x40000000);
SkDebugf("left: %d right: %d centerX: %d ", rect.left(), rect.right(), rect.centerX());
SkDebugf("safe mid x: %d\n", rect.left() / 2 + rect.right() / 2);
#StdOut
left: 1073741824 right: 1073741826 centerX: -1073741823 safe mid x: 1073741825
##
##
#SeeAlso centerX SkRect::centerY
##
# ------------------------------------------------------------------------------
#Method 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 true if width() or height() are zero or negative ##
#Example
SkIRect tests[] = {{20, 40, 10, 50}, {20, 40, 20, 50}};
for (auto rect : tests) {
SkDebugf("rect: {%d, %d, %d, %d} is" "%s empty\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "" : " not");
rect.sort();
SkDebugf("sorted: {%d, %d, %d, %d} is" "%s empty\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "" : " not");
}
#StdOut
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
##
##
#SeeAlso EmptyIRect MakeEmpty sort SkRect::isEmpty
##
# ------------------------------------------------------------------------------
#Method bool isLargest() const
Returns true if IRect encloses largest possible area.
#Return true if equal to (SK_MinS32, SK_MinS32, SK_MaxS32, SK_MaxS32) ##
#Example
#Description
Note that the width is not negative, yet it cannot be represented as a 32-bit
signed integer.
##
SkIRect large = SkIRect::MakeLargest();
SkDebugf("large is largest: %s\n" ,large.isLargest() ? "true" : "false");
SkDebugf("large width %d\n", large.width());
SkDebugf("large is empty: %s\n", large.isEmpty() ? "true" : "false");
#StdOut
large is largest: true
large width -2
large is empty: false
##
##
#SeeAlso MakeLargest SkRect::isLargest
##
# ------------------------------------------------------------------------------
#Method bool operator==(const SkIRect& a, const SkIRect& b)
Returns true if all members in a: fLeft, fTop, fRight, and fBottom; are
identical to corresponding members in b.
#Param a IRect to compare ##
#Param b IRect to compare ##
#Return true if members are equal ##
#Example
SkIRect test = {0, 0, 2, 2};
SkIRect sorted = test.makeSorted();
SkDebugf("test %c= sorted\n", test == sorted ? '=' : '!');
#StdOut
test == sorted
##
##
#SeeAlso operator!=(const SkIRect& a, const SkIRect& b)
##
# ------------------------------------------------------------------------------
#Method bool operator!=(const SkIRect& a, const SkIRect& b)
Returns true if any member in a: fLeft, fTop, fRight, and fBottom; is not
identical to the corresponding member in b.
#Param a IRect to compare ##
#Param b IRect to compare ##
#Return true if members are not equal ##
#Example
SkIRect test = {2, 2, 0, 0};
SkIRect sorted = test.makeSorted();
SkDebugf("test %c= sorted\n", test != sorted ? '!' : '=');
#StdOut
test != sorted
##
##
#SeeAlso operator==(const SkIRect& a, const SkIRect& b)
##
# ------------------------------------------------------------------------------
#Method bool is16Bit() const
Returns true if all members: fLeft, fTop, fRight, and fBottom; values are
equal to or larger than -32768 and equal to or smaller than 32767.
#Return true if members fit in 16-bit word ##
#Example
SkIRect tests[] = {{-32768, -32768, 32767, 32767}, {-32768, -32768, 32768, 32768}};
for (auto rect : tests) {
SkDebugf("{%d, %d, %d, %d} %s in 16 bits\n", rect.fLeft, rect.fTop, rect.fRight,
rect.fBottom, rect.is16Bit() ? "fits" : "does not fit");
}
#StdOut
{-32768, -32768, 32767, 32767} fits in 16 bits
{-32768, -32768, 32768, 32768} does not fit in 16 bits
##
##
#SeeAlso SkTFitsIn
##
# ------------------------------------------------------------------------------
#Method void setEmpty()
Sets IRect 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
SkIRect rect = {3, 4, 1, 2};
for (int i = 0; i < 2; ++i) {
SkDebugf("rect: {%d, %d, %d, %d} is %s" "empty\n", rect.fLeft, rect.fTop,
rect.fRight, rect.fBottom, rect.isEmpty() ? "" : "not ");
rect.setEmpty();
}
#StdOut
rect: {3, 4, 1, 2} is empty
rect: {0, 0, 0, 0} is empty
##
##
#SeeAlso MakeEmpty SkRect::setEmpty
##
# ------------------------------------------------------------------------------
#Method void set(int32_t left, int32_t top, int32_t right, int32_t bottom)
Sets IRect 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.
#Param left assigned to fLeft ##
#Param top assigned to fTop ##
#Param right assigned to fRight ##
#Param bottom assigned to fBottom ##
#Example
SkIRect rect1 = {3, 4, 1, 2};
SkDebugf("rect1: {%d, %d, %d, %d}\n", rect1.fLeft, rect1.fTop, rect1.fRight, rect1.fBottom);
SkIRect rect2;
rect2.set(3, 4, 1, 2);
SkDebugf("rect2: {%d, %d, %d, %d}\n", rect2.fLeft, rect2.fTop, rect2.fRight, rect2.fBottom);
#StdOut
rect1: {3, 4, 1, 2}
rect2: {3, 4, 1, 2}
##
##
#SeeAlso setLTRB setXYWH SkRect::set
##
# ------------------------------------------------------------------------------
#Method void setLTRB(int32_t left, int32_t top, int32_t right, int32_t bottom)
Sets IRect 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.
#Param left stored in fLeft ##
#Param top stored in fTop ##
#Param right stored in fRight ##
#Param bottom stored in fBottom ##
#Example
SkIRect rect1 = {3, 4, 1, 2};
SkDebugf("rect1: {%d, %d, %d, %d}\n", rect1.fLeft, rect1.fTop, rect1.fRight, rect1.fBottom);
SkIRect rect2;
rect2.setLTRB(3, 4, 1, 2);
SkDebugf("rect2: {%d, %d, %d, %d}\n", rect2.fLeft, rect2.fTop, rect2.fRight, rect2.fBottom);
#StdOut
rect1: {3, 4, 1, 2}
rect2: {3, 4, 1, 2}
##
##
#SeeAlso set setXYWH SkRect::setLTRB
##
# ------------------------------------------------------------------------------
#Method void setXYWH(int32_t x, int32_t y, int32_t width, int32_t height)
Sets IRect to:
#Formula
(x, y, x + width, y + height)
##
. Does not validate input;
width or height may be negative.
#Param x stored in fLeft ##
#Param y stored in fTop ##
#Param width added to x and stored in fRight ##
#Param height added to y and stored in fBottom ##
#Example
SkIRect rect;
rect.setXYWH(5, 35, -15, 25);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect.sort();
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 5, 35, -10, 60 isEmpty: true
rect: -10, 35, 5, 60 isEmpty: false
##
##
#SeeAlso MakeXYWH setLTRB set SkRect::setXYWH
##
# ------------------------------------------------------------------------------
#Method void setLargest()
Sets rectangle left and top to most negative value, and sets
right and bottom to most positive value.
#Example
SkIRect rect;
rect.setLargest();
SkDebugf("MakeLargest isLargest: %s\n", rect.isLargest() ? "true" : "false");
SkDebugf("MakeLargest isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
rect.outset(1, 1);
SkDebugf("outset isLargest: %s\n", rect.isLargest() ? "true" : "false");
SkDebugf("outset isEmpty: %s\n", rect.isEmpty() ? "true" : "false");
#StdOut
MakeLargest isLargest: true
MakeLargest isEmpty: false
outset isLargest: false
outset isEmpty: true
##
##
#SeeAlso MakeLargest isLargest setLargestInverted SK_MinS32 SK_MaxS32
##
# ------------------------------------------------------------------------------
#Method void setLargestInverted()
#ToDo move this to private
##
Sets rectangle left and top to most positive value, and sets
right and bottom to most negative value. This is used internally to
flag that a condition is met, but otherwise has no special purpose.
#NoExample
##
#SeeAlso setEmpty setLargest
##
# ------------------------------------------------------------------------------
#Method SkIRect makeOffset(int32_t dx, int32_t dy) const
Returns IRect offset by (dx, dy).
If dx is negative, IRect returned is moved to the left.
If dx is positive, IRect returned is moved to the right.
If dy is negative, IRect returned is moved upward.
If dy is positive, IRect returned is moved downward.
#Param dx offset added to fLeft and fRight ##
#Param dy offset added to fTop and fBottom ##
#Return Rect offset in x or y, with original width and height ##
#Example
SkIRect rect = { 10, 50, 20, 60 };
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect = rect.makeOffset(15, 32);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 10, 50, 20, 60 isEmpty: false
rect: 25, 82, 35, 92 isEmpty: false
##
##
#SeeAlso offset() makeInset makeOutset SkRect::makeOffset
##
# ------------------------------------------------------------------------------
#Method SkIRect makeInset(int32_t dx, int32_t dy) const
Returns IRect, inset by (dx, dy).
If dx is negative, IRect returned is wider.
If dx is positive, IRect returned is narrower.
If dy is negative, IRect returned is taller.
If dy is positive, IRect returned is shorter.
#Param dx offset added to fLeft and subtracted from fRight ##
#Param dy offset added to fTop and subtracted from fBottom ##
#Return Rect inset symmetrically left and right, top and bottom ##
#Example
SkIRect rect = { 10, 50, 20, 60 };
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect = rect.makeInset(15, 32);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 10, 50, 20, 60 isEmpty: false
rect: 25, 82, 5, 28 isEmpty: true
##
##
#SeeAlso inset() makeOffset makeOutset SkRect::makeInset
##
# ------------------------------------------------------------------------------
#Method SkIRect makeOutset(int32_t dx, int32_t dy) const
Returns IRect, outset by (dx, dy).
If dx is negative, IRect returned is narrower.
If dx is positive, IRect returned is wider.
If dy is negative, IRect returned is shorter.
If dy is positive, IRect returned is taller.
#Param dx offset subtracted to fLeft and added from fRight ##
#Param dy offset subtracted to fTop and added from fBottom ##
#Return Rect outset symmetrically left and right, top and bottom ##
#Example
SkIRect rect = { 10, 50, 20, 60 };
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
rect = rect.makeOutset(15, 32);
SkDebugf("rect: %d, %d, %d, %d isEmpty: %s\n", rect.left(), rect.top(), rect.right(),
rect.bottom(), rect.isEmpty() ? "true" : "false");
#StdOut
rect: 10, 50, 20, 60 isEmpty: false
rect: -5, 18, 35, 92 isEmpty: false
##
##
#SeeAlso outset() makeOffset makeInset SkRect::makeOutset
##
# ------------------------------------------------------------------------------
#Method void offset(int32_t dx, int32_t dy)
Offsets IRect by adding dx to fLeft, fRight; and by adding dy to fTop, fBottom.
If dx is negative, moves IRect returned to the left.
If dx is positive, moves IRect returned to the right.
If dy is negative, moves IRect returned upward.
If dy is positive, moves IRect returned downward.
#Param dx offset added to fLeft and fRight ##
#Param dy offset added to fTop and fBottom ##
#Example
SkIRect rect = { 10, 14, 50, 73 };
rect.offset(5, 13);
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 15, 27, 55, 86
##
##
#SeeAlso offsetTo makeOffset SkRect::offset
##
# ------------------------------------------------------------------------------
#Method void offset(const SkIPoint& delta)
Offsets IRect by adding delta.fX to fLeft, fRight; and by adding delta.fY to
fTop, fBottom.
If delta.fX is negative, moves IRect returned to the left.
If delta.fX is positive, moves IRect returned to the right.
If delta.fY is negative, moves IRect returned upward.
If delta.fY is positive, moves IRect returned downward.
#Param delta offset added to IRect ##
#Example
SkIRect rect = { 10, 14, 50, 73 };
rect.offset({5, 13});
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 15, 27, 55, 86
##
##
#SeeAlso offsetTo makeOffset SkRect::offset
##
# ------------------------------------------------------------------------------
#Method void offsetTo(int32_t newX, int32_t newY)
Offsets IRect so that fLeft equals newX, and fTop equals newY. width and height
are unchanged.
#Param newX stored in fLeft, preserving width() ##
#Param newY stored in fTop, preserving height() ##
#Example
SkIRect rect = { 10, 14, 50, 73 };
rect.offsetTo(15, 27);
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 15, 27, 55, 86
##
##
#SeeAlso offset makeOffset setXYWH SkRect::offsetTo
##
# ------------------------------------------------------------------------------
#Method void inset(int32_t dx, int32_t dy)
Insets IRect by (dx,dy).
If dx is positive, makes IRect narrower.
If dx is negative, makes IRect wider.
If dy is positive, makes IRect shorter.
If dy is negative, makes IRect taller.
#Param dx offset added to fLeft and subtracted from fRight ##
#Param dy offset added to fTop and subtracted from fBottom ##
#Example
SkIRect rect = { 10, 14, 50, 73 };
rect.inset(5, 13);
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 15, 27, 45, 60
##
##
#SeeAlso outset makeInset SkRect::inset
##
# ------------------------------------------------------------------------------
#Method void outset(int32_t dx, int32_t dy)
Outsets IRect by (dx, dy).
If dx is positive, makes Rect wider.
If dx is negative, makes Rect narrower.
If dy is positive, makes Rect taller.
If dy is negative, makes Rect shorter.
#Param dx subtracted to fLeft and added from fRight ##
#Param dy subtracted to fTop and added from fBottom ##
#Example
SkIRect rect = { 10, 14, 50, 73 };
rect.outset(5, 13);
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 5, 1, 55, 86
##
##
#SeeAlso inset makeOutset SkRect::outset
##
# ------------------------------------------------------------------------------
#Method bool quickReject(int l, int t, int r, int b) const
Constructs IRect (l, t, r, b) and returns true if constructed IRect does not
intersect IRect. Does not check to see if construction or IRect is empty.
Is implemented with short circuit logic so that true can be returned after
a single compare.
#Param l x minimum of constructed Rect ##
#Param t y minimum of constructed Rect ##
#Param r x maximum of constructed Rect ##
#Param b y maximum of constructed Rect ##
#Return true if construction and IRect have no area in common ##
#Example
#Description
quickReject is the complement of Intersects.
##
const SkIRect rect = {7, 11, 13, 17};
const int32_t* r = &rect.fLeft;
const SkIRect tests[] = { {13, 11, 15, 17}, { 7, 7, 13, 11 }, { 12, 16, 14, 18 } };
for (auto& test : tests) {
const int32_t* t = &test.fLeft;
SkDebugf("rect (%d, %d, %d, %d) test(%d, %d, %d, %d) quickReject %s; intersects %s\n",
r[0], r[1], r[2], r[3], t[0], t[1], t[2], t[3],
rect.quickReject(t[0], t[1], t[2], t[3]) ? "true" : "false",
SkIRect::Intersects(rect, test) ? "true" : "false");
}
#StdOut
rect (7, 11, 13, 17) test(13, 11, 15, 17) quickReject true; intersects false
rect (7, 11, 13, 17) test(7, 7, 13, 11) quickReject true; intersects false
rect (7, 11, 13, 17) test(12, 16, 14, 18) quickReject false; intersects true
##
##
#SeeAlso Intersects
##
# ------------------------------------------------------------------------------
#Method bool contains(int32_t x, int32_t y) const
Returns true if:
#Formula
fLeft <= x < fRight && fTop <= y < fBottom
##
.
Returns false if Rect is empty.
Considers input to describe constructed IRect:
#Formula
(x, y, x + 1, y + 1)
##
and
returns true if constructed area is completely enclosed by IRect area.
#Param x test Point x-coordinate ##
#Param y test Point y-coordinate ##
#Return true if (x, y) is inside IRect ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkIPoint pts[] = { { 30, 50}, { 40, 50}, { 30, 60} };
for (auto pt : pts) {
SkDebugf("rect: (%d, %d, %d, %d) %s (%d, %d)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
rect.contains(pt.x(), pt.y()) ? "contains" : "does not contain", pt.x(), pt.y());
}
#StdOut
rect: (30, 50, 40, 60) contains (30, 50)
rect: (30, 50, 40, 60) does not contain (40, 50)
rect: (30, 50, 40, 60) does not contain (30, 60)
##
##
#SeeAlso containsNoEmptyCheck SkRect::contains
##
# ------------------------------------------------------------------------------
#Method bool contains(int32_t left, int32_t top, int32_t right, int32_t bottom) const
Constructs Rect to intersect from (left, top, right, bottom). Does not sort
construction.
Returns true if Rect contains construction.
Returns false if Rect is empty or construction is empty.
#Param left x minimum of constructed Rect ##
#Param top y minimum of constructed Rect ##
#Param right x maximum of constructed Rect ##
#Param bottom y maximum of constructed Rect ##
#Return true if all sides of IRect are outside construction ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkIRect tests[] = { { 30, 50, 31, 51}, { 39, 49, 40, 50}, { 29, 59, 30, 60} };
for (auto contained : tests) {
bool success = rect.contains(
contained.left(), contained.top(), contained.right(), contained.bottom());
SkDebugf("rect: (%d, %d, %d, %d) %s (%d, %d, %d, %d)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
success ? "contains" : "does not contain",
contained.left(), contained.top(), contained.right(), contained.bottom());
}
#StdOut
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)
##
##
#SeeAlso containsNoEmptyCheck SkRect::contains
##
# ------------------------------------------------------------------------------
#Method bool contains(const SkIRect& r) const
Returns true if Rect contains r.
Returns false if Rect is empty or r is empty.
Rect contains r when Rect area completely includes r area.
#Param r IRect contained ##
#Return true if all sides of IRect are outside r ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkIRect tests[] = { { 30, 50, 31, 51}, { 39, 49, 40, 50}, { 29, 59, 30, 60} };
for (auto contained : tests) {
SkDebugf("rect: (%d, %d, %d, %d) %s (%d, %d, %d, %d)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
rect.contains(contained) ? "contains" : "does not contain",
contained.left(), contained.top(), contained.right(), contained.bottom());
}
#StdOut
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)
##
##
#SeeAlso containsNoEmptyCheck SkRect::contains
##
# ------------------------------------------------------------------------------
#Method bool contains(const SkRect& r) const
Returns true if Rect contains r.
Returns false if Rect is empty or r is empty.
Rect contains r when Rect area completely includes r area.
#Param r Rect contained ##
#Return true if all sides of IRect are outside r ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkRect tests[] = { { 30, 50, 31, 51}, { 39, 49, 40, 50}, { 29, 59, 30, 60} };
for (auto contained : tests) {
SkDebugf("rect: (%d, %d, %d, %d) %s (%g, %g, %g, %g)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
rect.contains(contained) ? "contains" : "does not contain",
contained.left(), contained.top(), contained.right(), contained.bottom());
}
#StdOut
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)
##
##
#SeeAlso containsNoEmptyCheck SkRect::contains
##
# ------------------------------------------------------------------------------
#Method bool containsNoEmptyCheck(int32_t left, int32_t top,
int32_t right, int32_t bottom) const
Constructs IRect from (left, top, right, bottom). Does not sort
construction.
Returns true if Rect contains construction.
Asserts if IRect is empty or construction is empty, and if SK_DEBUG is defined.
Return is undefined if Rect is empty or construction is empty.
#Param left x minimum of constructed Rect ##
#Param top y minimum of constructed Rect ##
#Param right x maximum of constructed Rect ##
#Param bottom y maximum of constructed Rect ##
#Return true if all sides of IRect are outside construction ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkIRect tests[] = { { 30, 50, 31, 51}, { 39, 49, 40, 50}, { 29, 59, 30, 60} };
for (auto contained : tests) {
bool success = rect.containsNoEmptyCheck(
contained.left(), contained.top(), contained.right(), contained.bottom());
SkDebugf("rect: (%d, %d, %d, %d) %s (%d, %d, %d, %d)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
success ? "contains" : "does not contain",
contained.left(), contained.top(), contained.right(), contained.bottom());
}
#StdOut
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)
##
##
#SeeAlso contains SkRect::contains
##
# ------------------------------------------------------------------------------
#Method bool containsNoEmptyCheck(const SkIRect& r) const
Returns true if Rect contains construction.
Asserts if IRect is empty or construction is empty, and if SK_DEBUG is defined.
Return is undefined if Rect is empty or construction is empty.
#Param r Rect contained ##
#Return true if all sides of IRect are outside r ##
#Example
SkIRect rect = { 30, 50, 40, 60 };
SkIRect tests[] = { { 30, 50, 31, 51}, { 39, 49, 40, 50}, { 29, 59, 30, 60} };
for (auto contained : tests) {
SkDebugf("rect: (%d, %d, %d, %d) %s (%d, %d, %d, %d)\n",
rect.left(), rect.top(), rect.right(), rect.bottom(),
rect.containsNoEmptyCheck(contained) ? "contains" : "does not contain",
contained.left(), contained.top(), contained.right(), contained.bottom());
}
#StdOut
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)
##
##
#SeeAlso contains SkRect::contains
##
#Topic Intersection
IRects 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;
empty() returns false. The intersection of IRect pair can be described by:
#Formula
(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 IRect is not empty and
describes an area: fLeft is less than fRight, and fTop is less than fBottom.
# ------------------------------------------------------------------------------
#Method bool intersect(const SkIRect& r)
Returns true if IRect intersects r, and sets IRect to intersection.
Returns false if IRect does not intersect r, and leaves IRect unchanged.
Returns false if either r or IRect is empty, leaving IRect unchanged.
#Param r limit of result ##
#Return true if r and Rect have area in common ##
#Example
#Description
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.
##
SkIRect leftRect = { 10, 40, 50, 80 };
SkIRect rightRect = { 30, 60, 70, 90 };
SkDebugf("%s intersection: ", leftRect.intersect(rightRect) ? "" : "no ");
SkDebugf("%d, %d, %d, %d\n", leftRect.left(), leftRect.top(),
leftRect.right(), leftRect.bottom());
#StdOut
intersection: 30, 60, 50, 80
##
##
#SeeAlso Intersects intersectNoEmptyCheck join SkRect::intersect
##
# ------------------------------------------------------------------------------
#Method bool SK_WARN_UNUSED_RESULT intersect(const SkIRect& a, const SkIRect& b)
Returns true if a intersects b, and sets IRect to intersection.
Returns false if a does not intersect b, and leaves IRect unchanged.
Returns false if either a or b is empty, leaving IRect unchanged.
#Param a IRect to intersect ##
#Param b IRect to intersect ##
#Return true if a and b have area in common ##
#Example
SkIRect result;
bool intersected = result.intersect({ 10, 40, 50, 80 }, { 30, 60, 70, 90 });
SkDebugf("%s intersection: %d, %d, %d, %d\n", intersected ? "" : "no ",
result.left(), result.top(), result.right(), result.bottom());
#StdOut
intersection: 30, 60, 50, 80
##
##
#SeeAlso Intersects intersectNoEmptyCheck join SkRect::intersect
##
# ------------------------------------------------------------------------------
#Method bool SK_WARN_UNUSED_RESULT intersectNoEmptyCheck(const SkIRect& a, const SkIRect& b)
Returns true if a intersects b, and sets IRect to intersection.
Returns false if a does not intersect b, and leaves IRect unchanged.
Asserts if either a or b is empty, and if SK_DEBUG is defined.
#Param a IRect to intersect ##
#Param b IRect to intersect ##
#Return true if a and b have area in common ##
#Example
SkIRect result;
bool intersected = result.intersectNoEmptyCheck({ 10, 40, 50, 80 }, { 30, 60, 70, 90 });
SkDebugf("intersection: %d, %d, %d, %d\n",
result.left(), result.top(), result.right(), result.bottom());
#StdOut
intersection: 30, 60, 50, 80
##
##
#SeeAlso Intersects intersect join SkRect::intersect
##
# ------------------------------------------------------------------------------
#Method bool intersect(int32_t left, int32_t top, int32_t right, int32_t bottom)
Constructs IRect to intersect from (left, top, right, bottom). Does not sort
construction.
Returns true if IRect intersects construction, and sets IRect to intersection.
Returns false if IRect does not intersect construction, and leaves IRect unchanged.
Returns false if either construction or IRect is empty, leaving IRect unchanged.
#Param left x minimum of constructed IRect ##
#Param top y minimum of constructed IRect ##
#Param right x maximum of constructed IRect ##
#Param bottom y maximum of constructed IRect ##
#Return true if construction and IRect have area in common ##
#Example
#Description
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.
##
SkIRect leftRect = { 10, 40, 50, 80 };
SkDebugf("%s intersection: ", leftRect.intersect(30, 60, 70, 90) ? "" : "no ");
SkDebugf("%d, %d, %d, %d\n", leftRect.left(), leftRect.top(),
leftRect.right(), leftRect.bottom());
#StdOut
intersection: 30, 60, 50, 80
##
##
#SeeAlso intersectNoEmptyCheck Intersects join SkRect::intersect
##
# ------------------------------------------------------------------------------
#Method static bool Intersects(const SkIRect& a, const SkIRect& b)
Returns true if a intersects b.
Returns false if either a or b is empty, or do not intersect.
#Param a IRect to intersect ##
#Param b IRect to intersect ##
#Return true if a and b have area in common ##
#Example
SkDebugf("%s intersection", SkIRect::Intersects({10, 40, 50, 80}, {30, 60, 70, 90}) ? "" : "no ");
#StdOut
intersection
##
##
#SeeAlso IntersectsNoEmptyCheck intersect SkRect::intersect
##
# ------------------------------------------------------------------------------
#Method static bool IntersectsNoEmptyCheck(const SkIRect& a, const SkIRect& b)
Returns true if a intersects b.
Asserts if either a or b is empty, and if SK_DEBUG is defined.
#Param a IRect to intersect ##
#Param b IRect to intersect ##
#Return true if a and b have area in common ##
#Example
SkDebugf("%s intersection", SkIRect::IntersectsNoEmptyCheck(
{10, 40, 50, 80}, {30, 60, 70, 90}) ? "" : "no ");
#StdOut
intersection
##
##
#SeeAlso Intersects intersect SkRect::intersect
##
#Topic Intersection ##
# ------------------------------------------------------------------------------
#Method void join(int32_t left, int32_t top, int32_t right, int32_t bottom)
Constructs Rect to intersect from (left, top, right, bottom). Does not sort
construction.
Sets Rect to the union of itself and the construction.
Has no effect if construction is empty. Otherwise, if Rect is empty, sets
Rect to construction.
#Param left x minimum of constructed Rect ##
#Param top y minimum of constructed Rect ##
#Param right x maximum of constructed Rect ##
#Param bottom y maximum of constructed Rect ##
#Example
SkIRect rect = { 10, 20, 15, 25};
rect.join(50, 60, 55, 65);
SkDebugf("join: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
join: 10, 20, 55, 65
##
##
#SeeAlso set SkRect::join
##
# ------------------------------------------------------------------------------
#Method void join(const SkIRect& r)
Sets Rect to the union of itself and r.
Has no effect if r is empty. Otherwise, if Rect is empty, sets Rect to r.
#Param r expansion Rect ##
#Example
SkIRect rect = { 10, 20, 15, 25};
rect.join({50, 60, 55, 65});
SkDebugf("join: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
join: 10, 20, 55, 65
##
##
#SeeAlso set SkRect::join
##
# ------------------------------------------------------------------------------
#Method 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
SkIRect rect = { 30, 50, 20, 10 };
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
rect.sort();
SkDebugf("sorted: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 30, 50, 20, 10
sorted: 20, 10, 30, 50
##
##
#SeeAlso makeSorted SkRect::sort
##
# ------------------------------------------------------------------------------
#Method SkIRect makeSorted() const
Returns Rect 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 sorted IRect ##
#Example
SkIRect rect = { 30, 50, 20, 10 };
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
SkIRect sort = rect.makeSorted();
SkDebugf("sorted: %d, %d, %d, %d\n", sort.fLeft, sort.fTop, sort.fRight, sort.fBottom);
#StdOut
rect: 30, 50, 20, 10
sorted: 20, 10, 30, 50
##
##
#SeeAlso sort SkRect::makeSorted
##
# ------------------------------------------------------------------------------
#Method static const SkIRect& SK_WARN_UNUSED_RESULT EmptyIRect()
Returns a reference to immutable empty IRect, set to (0, 0, 0, 0).
#Return global IRect set to all zeroes ##
#Example
const SkIRect& rect = SkIRect::EmptyIRect();
SkDebugf("rect: %d, %d, %d, %d\n", rect.fLeft, rect.fTop, rect.fRight, rect.fBottom);
#StdOut
rect: 0, 0, 0, 0
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#SeeAlso MakeEmpty
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#Struct SkIRect ##
#Topic IRect ##