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/****************************************************************************
**
** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtCore module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** This file may be used under the terms of the GNU Lesser General Public
** License version 2.1 as published by the Free Software Foundation and
** appearing in the file LICENSE.LGPL included in the packaging of this
** file. Please review the following information to ensure the GNU Lesser
** General Public License version 2.1 requirements will be met:
** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU General
** Public License version 3.0 as published by the Free Software Foundation
** and appearing in the file LICENSE.GPL included in the packaging of this
** file. Please review the following information to ensure the GNU General
** Public License version 3.0 requirements will be met:
** http://www.gnu.org/copyleft/gpl.html.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qrect.h"
#include "qdatastream.h"
#include "qdebug.h"
#include "qmath.h"
#include <math.h>
QT_BEGIN_NAMESPACE
/*!
\class QRect
\ingroup painting
\brief The QRect class defines a rectangle in the plane using
integer precision.
A rectangle is normally expressed as an upper-left corner and a
size. The size (width and height) of a QRect is always equivalent
to the mathematical rectangle that forms the basis for its
rendering.
A QRect can be constructed with a set of left, top, width and
height integers, or from a QPoint and a QSize. The following code
creates two identical rectangles.
\snippet doc/src/snippets/code/src_corelib_tools_qrect.cpp 0
There is a third constructor that creates a QRect using the
top-left and bottom-right coordinates, but we recommend that you
avoid using it. The rationale is that for historical reasons the
values returned by the bottom() and right() functions deviate from
the true bottom-right corner of the rectangle.
The QRect class provides a collection of functions that return the
various rectangle coordinates, and enable manipulation of
these. QRect also provide functions to move the rectangle relative
to the various coordinates. In addition there is a moveTo()
function that moves the rectangle, leaving its top left corner at
the given coordinates. Alternatively, the translate() function
moves the rectangle the given offset relative to the current
position, and the translated() function returns a translated copy
of this rectangle.
The size() function returns the rectange's dimensions as a
QSize. The dimensions can also be retrieved separately using the
width() and height() functions. To manipulate the dimensions use
the setSize(), setWidth() or setHeight() functions. Alternatively,
the size can be changed by applying either of the functions
setting the rectangle coordinates, for example, setBottom() or
setRight().
The contains() function tells whether a given point is inside the
rectangle or not, and the intersects() function returns true if
this rectangle intersects with a given rectangle. The QRect class
also provides the intersected() function which returns the
intersection rectangle, and the united() function which returns the
rectangle that encloses the given rectangle and this:
\table
\row
\o \inlineimage qrect-intersect.png
\o \inlineimage qrect-unite.png
\row
\o intersected()
\o united()
\endtable
The isEmpty() function returns true if left() > right() or top() >
bottom(). Note that an empty rectangle is not valid: The isValid()
function returns true if left() <= right() \e and top() <=
bottom(). A null rectangle (isNull() == true) on the other hand,
has both width and height set to 0.
Note that due to the way QRect and QRectF are defined, an
empty QRect is defined in essentially the same way as QRectF.
Finally, QRect objects can be streamed as well as compared.
\tableofcontents
\section1 Rendering
When using an \l {QPainter::Antialiasing}{anti-aliased} painter,
the boundary line of a QRect will be rendered symmetrically on
both sides of the mathematical rectangle's boundary line. But when
using an aliased painter (the default) other rules apply.
Then, when rendering with a one pixel wide pen the QRect's boundary
line will be rendered to the right and below the mathematical
rectangle's boundary line.
When rendering with a two pixels wide pen the boundary line will
be split in the middle by the mathematical rectangle. This will be
the case whenever the pen is set to an even number of pixels,
while rendering with a pen with an odd number of pixels, the spare
pixel will be rendered to the right and below the mathematical
rectangle as in the one pixel case.
\table
\row
\o \inlineimage qrect-diagram-zero.png
\o \inlineimage qrect-diagram-one.png
\row
\o Logical representation
\o One pixel wide pen
\row
\o \inlineimage qrect-diagram-two.png
\o \inlineimage qrect-diagram-three.png
\row
\o Two pixel wide pen
\o Three pixel wide pen
\endtable
\section1 Coordinates
The QRect class provides a collection of functions that return the
various rectangle coordinates, and enable manipulation of
these. QRect also provide functions to move the rectangle relative
to the various coordinates.
For example the left(), setLeft() and moveLeft() functions as an
example: left() returns the x-coordinate of the rectangle's left
edge, setLeft() sets the left edge of the rectangle to the given x
coordinate (it may change the width, but will never change the
rectangle's right edge) and moveLeft() moves the entire rectangle
horizontally, leaving the rectangle's left edge at the given x
coordinate and its size unchanged.
\image qrect-coordinates.png
Note that for historical reasons the values returned by the
bottom() and right() functions deviate from the true bottom-right
corner of the rectangle: The right() function returns \e { left()
+ width() - 1} and the bottom() function returns \e {top() +
height() - 1}. The same is the case for the point returned by the
bottomRight() convenience function. In addition, the x and y
coordinate of the topRight() and bottomLeft() functions,
respectively, contain the same deviation from the true right and
bottom edges.
We recommend that you use x() + width() and y() + height() to find
the true bottom-right corner, and avoid right() and
bottom(). Another solution is to use QRectF: The QRectF class
defines a rectangle in the plane using floating point accuracy for
coordinates, and the QRectF::right() and QRectF::bottom()
functions \e do return the right and bottom coordinates.
It is also possible to add offsets to this rectangle's coordinates
using the adjust() function, as well as retrieve a new rectangle
based on adjustments of the original one using the adjusted()
function. If either of the width and height is negative, use the
normalized() function to retrieve a rectangle where the corners
are swapped.
In addition, QRect provides the getCoords() function which extracts
the position of the rectangle's top-left and bottom-right corner,
and the getRect() function which extracts the rectangle's top-left
corner, width and height. Use the setCoords() and setRect()
function to manipulate the rectangle's coordinates and dimensions
in one go.
\sa QRectF, QRegion
*/
/*****************************************************************************
QRect member functions
*****************************************************************************/
/*!
\fn QRect::QRect()
Constructs a null rectangle.
\sa isNull()
*/
/*!
\fn QRect::QRect(const QPoint &topLeft, const QPoint &bottomRight)
Constructs a rectangle with the given \a topLeft and \a bottomRight corners.
\sa setTopLeft(), setBottomRight()
*/
/*!
\fn QRect::QRect(const QPoint &topLeft, const QSize &size)
Constructs a rectangle with the given \a topLeft corner and the
given \a size.
\sa setTopLeft(), setSize()
*/
/*!
\fn QRect::QRect(int x, int y, int width, int height)
Constructs a rectangle with (\a x, \a y) as its top-left corner
and the given \a width and \a height.
\sa setRect()
*/
/*!
\fn bool QRect::isNull() const
Returns true if the rectangle is a null rectangle, otherwise
returns false.
A null rectangle has both the width and the height set to 0 (i.e.,
right() == left() - 1 and bottom() == top() - 1). A null rectangle
is also empty, and hence is not valid.
\sa isEmpty(), isValid()
*/
/*!
\fn bool QRect::isEmpty() const
Returns true if the rectangle is empty, otherwise returns false.
An empty rectangle has a left() > right() or top() > bottom(). An
empty rectangle is not valid (i.e., isEmpty() == !isValid()).
Use the normalized() function to retrieve a rectangle where the
corners are swapped.
\sa isNull(), isValid(), normalized()
*/
/*!
\fn bool QRect::isValid() const
Returns true if the rectangle is valid, otherwise returns false.
A valid rectangle has a left() < right() and top() <
bottom(). Note that non-trivial operations like intersections are
not defined for invalid rectangles. A valid rectangle is not empty
(i.e., isValid() == !isEmpty()).
\sa isNull(), isEmpty(), normalized()
*/
/*!
Returns a normalized rectangle; i.e., a rectangle that has a
non-negative width and height.
If width() < 0 the function swaps the left and right corners, and
it swaps the top and bottom corners if height() < 0.
\sa isValid(), isEmpty()
*/
QRect QRect::normalized() const
{
QRect r;
if (x2 < x1 - 1) { // swap bad x values
r.x1 = x2;
r.x2 = x1;
} else {
r.x1 = x1;
r.x2 = x2;
}
if (y2 < y1 - 1) { // swap bad y values
r.y1 = y2;
r.y2 = y1;
} else {
r.y1 = y1;
r.y2 = y2;
}
return r;
}
/*!
\fn QRect QRect::normalize() const
\compat
Returns a normalized rectangle; i.e., a rectangle that has a
non-negative width and height.
Use the normalized() function instead
*/
/*!
\fn int QRect::left() const
Returns the x-coordinate of the rectangle's left edge. Equivalent
to x().
\sa setLeft(), topLeft(), bottomLeft()
*/
/*!
\fn int QRect::top() const
Returns the y-coordinate of the rectangle's top edge.
Equivalent to y().
\sa setTop(), topLeft(), topRight()
*/
/*!
\fn int QRect::right() const
Returns the x-coordinate of the rectangle's right edge.
Note that for historical reasons this function returns left() +
width() - 1; use x() + width() to retrieve the true x-coordinate.
\sa setRight(), topRight(), bottomRight()
*/
/*!
\fn int QRect::bottom() const
Returns the y-coordinate of the rectangle's bottom edge.
Note that for historical reasons this function returns top() +
height() - 1; use y() + height() to retrieve the true y-coordinate.
\sa setBottom(), bottomLeft(), bottomRight()
*/
/*!
\fn int &QRect::rLeft()
\compat
Returns a reference to the left coordinate of the rectangle.
Use the left() function instead.
*/
/*!
\fn int &QRect::rTop()
\compat
Returns a reference to the top coordinate of the rectangle.
Use the top() function instead.
*/
/*!
\fn int &QRect::rRight()
\compat
Returns a reference to the right coordinate of the rectangle.
Use the right() function instead.
*/
/*!
\fn int &QRect::rBottom()
\compat
Returns a reference to the bottom coordinate of the rectangle.
Use the bottom() function instead.
*/
/*!
\fn int QRect::x() const
Returns the x-coordinate of the rectangle's left edge. Equivalent to left().
\sa setX(), y(), topLeft()
*/
/*!
\fn int QRect::y() const
Returns the y-coordinate of the rectangle's top edge. Equivalent to top().
\sa setY(), x(), topLeft()
*/
/*!
\fn void QRect::setLeft(int x)
Sets the left edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the right
edge of the rectangle.
Equivalent to setX().
\sa left(), moveLeft()
*/
/*!
\fn void QRect::setTop(int y)
Sets the top edge of the rectangle to the given \a y
coordinate. May change the height, but will never change the
bottom edge of the rectangle.
Equivalent to setY().
\sa top(), moveTop()
*/
/*!
\fn void QRect::setRight(int x)
Sets the right edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the left
edge of the rectangle.
\sa right(), moveRight()
*/
/*!
\fn void QRect::setBottom(int y)
Sets the bottom edge of the rectangle to the given \a y
coordinate. May change the height, but will never change the top
edge of the rectangle.
\sa bottom(), moveBottom(),
*/
/*!
\fn void QRect::setX(int x)
Sets the left edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the right
edge of the rectangle.
Equivalent to setLeft().
\sa x(), setY(), setTopLeft()
*/
/*!
\fn void QRect::setY(int y)
Sets the top edge of the rectangle to the given \a y
coordinate. May change the height, but will never change the
bottom edge of the rectangle.
Equivalent to setTop().
\sa y(), setX(), setTopLeft()
*/
/*!
\fn void QRect::setTopLeft(const QPoint &position)
Set the top-left corner of the rectangle to the given \a
position. May change the size, but will never change the
bottom-right corner of the rectangle.
\sa topLeft(), moveTopLeft()
*/
/*!
\fn void QRect::setBottomRight(const QPoint &position)
Set the bottom-right corner of the rectangle to the given \a
position. May change the size, but will never change the
top-left corner of the rectangle.
\sa bottomRight(), moveBottomRight()
*/
/*!
\fn void QRect::setTopRight(const QPoint &position)
Set the top-right corner of the rectangle to the given \a
position. May change the size, but will never change the
bottom-left corner of the rectangle.
\sa topRight(), moveTopRight()
*/
/*!
\fn void QRect::setBottomLeft(const QPoint &position)
Set the bottom-left corner of the rectangle to the given \a
position. May change the size, but will never change the
top-right corner of the rectangle.
\sa bottomLeft(), moveBottomLeft()
*/
/*!
\fn QPoint QRect::topLeft() const
Returns the position of the rectangle's top-left corner.
\sa setTopLeft(), top(), left()
*/
/*!
\fn QPoint QRect::bottomRight() const
Returns the position of the rectangle's bottom-right corner.
Note that for historical reasons this function returns
QPoint(left() + width() -1, top() + height() - 1).
\sa setBottomRight(), bottom(), right()
*/
/*!
\fn QPoint QRect::topRight() const
Returns the position of the rectangle's top-right corner.
Note that for historical reasons this function returns
QPoint(left() + width() -1, top()).
\sa setTopRight(), top(), right()
*/
/*!
\fn QPoint QRect::bottomLeft() const
Returns the position of the rectangle's bottom-left corner. Note
that for historical reasons this function returns QPoint(left(),
top() + height() - 1).
\sa setBottomLeft(), bottom(), left()
*/
/*!
\fn QPoint QRect::center() const
Returns the center point of the rectangle.
\sa moveCenter()
*/
/*!
\fn void QRect::getRect(int *x, int *y, int *width, int *height) const
Extracts the position of the rectangle's top-left corner to *\a x
and *\a y, and its dimensions to *\a width and *\a height.
\sa setRect(), getCoords()
*/
/*!
\fn void QRect::getCoords(int *x1, int *y1, int *x2, int *y2) const
Extracts the position of the rectangle's top-left corner to *\a x1
and *\a y1, and the position of the bottom-right corner to *\a x2
and *\a y2.
\sa setCoords(), getRect()
*/
/*!
\fn void QRect::rect(int *x, int *y, int *width, int *height) const
\compat
Extracts the position of the rectangle's top-left corner to *\a x and
*\a y, and its dimensions to *\a width and * \a height.
Use the getRect() function instead.
*/
/*!
\fn void QRect::coords(int *x1, int *y1, int *x2, int *y2) const
\compat
Extracts the position of the rectangle's top-left corner to *\a x1
and *\a y1, and the position of the bottom-right corner to *\a x2
and *\a y2.
Use the getCoords() function instead.
*/
/*!
\fn void QRect::moveLeft(int x)
Moves the rectangle horizontally, leaving the rectangle's left
edge at the given \a x coordinate. The rectangle's size is
unchanged.
\sa left(), setLeft(), moveRight()
*/
/*!
\fn void QRect::moveTop(int y)
Moves the rectangle vertically, leaving the rectangle's top edge
at the given \a y coordinate. The rectangle's size is unchanged.
\sa top(), setTop(), moveBottom()
*/
/*!
\fn void QRect::moveRight(int x)
Moves the rectangle horizontally, leaving the rectangle's right
edge at the given \a x coordinate. The rectangle's size is
unchanged.
\sa right(), setRight(), moveLeft()
*/
/*!
\fn void QRect::moveBottom(int y)
Moves the rectangle vertically, leaving the rectangle's bottom
edge at the given \a y coordinate. The rectangle's size is
unchanged.
\sa bottom(), setBottom(), moveTop()
*/
/*!
\fn void QRect::moveTopLeft(const QPoint &position)
Moves the rectangle, leaving the top-left corner at the given \a
position. The rectangle's size is unchanged.
\sa setTopLeft(), moveTop(), moveLeft()
*/
/*!
\fn void QRect::moveBottomRight(const QPoint &position)
Moves the rectangle, leaving the bottom-right corner at the given
\a position. The rectangle's size is unchanged.
\sa setBottomRight(), moveRight(), moveBottom()
*/
/*!
\fn void QRect::moveTopRight(const QPoint &position)
Moves the rectangle, leaving the top-right corner at the given \a
position. The rectangle's size is unchanged.
\sa setTopRight(), moveTop(), moveRight()
*/
/*!
\fn void QRect::moveBottomLeft(const QPoint &position)
Moves the rectangle, leaving the bottom-left corner at the given
\a position. The rectangle's size is unchanged.
\sa setBottomLeft(), moveBottom(), moveLeft()
*/
/*!
\fn void QRect::moveCenter(const QPoint &position)
Moves the rectangle, leaving the center point at the given \a
position. The rectangle's size is unchanged.
\sa center()
*/
void QRect::moveCenter(const QPoint &p)
{
int w = x2 - x1;
int h = y2 - y1;
x1 = p.x() - w/2;
y1 = p.y() - h/2;
x2 = x1 + w;
y2 = y1 + h;
}
/*!
\fn void QRect::moveBy(int dx, int dy)
\compat
Moves the rectangle \a dx along the x axis and \a dy along the y
axis, relative to the current position.
Use the translate() function instead.
*/
/*!
\fn void QRect::moveBy(const QPoint &)
\compat
Use the translate() function instead.
*/
/*!
\fn void QRect::moveTo(int x, int y)
Moves the rectangle, leaving the top-left corner at the given
position (\a x, \a y). The rectangle's size is unchanged.
\sa translate(), moveTopLeft()
*/
/*!
\fn void QRect::moveTo(const QPoint &position)
Moves the rectangle, leaving the top-left corner at the given \a
position.
*/
/*!
\fn void QRect::translate(int dx, int dy)
Moves the rectangle \a dx along the x axis and \a dy along the y
axis, relative to the current position. Positive values move the
rectangle to the right and down.
\sa moveTopLeft(), moveTo(), translated()
*/
/*!
\fn void QRect::translate(const QPoint &offset)
\overload
Moves the rectangle \a{offset}.\l{QPoint::x()}{x()} along the x
axis and \a{offset}.\l{QPoint::y()}{y()} along the y axis,
relative to the current position.
*/
/*!
\fn QRect QRect::translated(int dx, int dy) const
Returns a copy of the rectangle that is translated \a dx along the
x axis and \a dy along the y axis, relative to the current
position. Positive values move the rectangle to the right and
down.
\sa translate()
*/
/*!
\fn QRect QRect::translated(const QPoint &offset) const
\overload
Returns a copy of the rectangle that is translated
\a{offset}.\l{QPoint::x()}{x()} along the x axis and
\a{offset}.\l{QPoint::y()}{y()} along the y axis, relative to the
current position.
*/
/*!
\fn void QRect::setRect(int x, int y, int width, int height)
Sets the coordinates of the rectangle's top-left corner to (\a{x},
\a{y}), and its size to the given \a width and \a height.
\sa getRect(), setCoords()
*/
/*!
\fn void QRect::setCoords(int x1, int y1, int x2, int y2)
Sets the coordinates of the rectangle's top-left corner to (\a x1,
\a y1), and the coordinates of its bottom-right corner to (\a x2,
\a y2).
\sa getCoords(), setRect()
*/
/*!
\fn void QRect::addCoords(int dx1, int dy1, int dx2, int dy2)
\compat
Adds \a dx1, \a dy1, \a dx2 and \a dy2 to the existing coordinates
of the rectangle respectively.
Use the adjust() function instead.
*/
/*! \fn QRect QRect::adjusted(int dx1, int dy1, int dx2, int dy2) const
Returns a new rectangle with \a dx1, \a dy1, \a dx2 and \a dy2
added respectively to the existing coordinates of this rectangle.
\sa adjust()
*/
/*! \fn void QRect::adjust(int dx1, int dy1, int dx2, int dy2)
Adds \a dx1, \a dy1, \a dx2 and \a dy2 respectively to the
existing coordinates of the rectangle.
\sa adjusted(), setRect()
*/
/*!
\fn QSize QRect::size() const
Returns the size of the rectangle.
\sa setSize(), width(), height()
*/
/*!
\fn int QRect::width() const
Returns the width of the rectangle.
\sa setWidth(), height(), size()
*/
/*!
\fn int QRect::height() const
Returns the height of the rectangle.
\sa setHeight(), width(), size()
*/
/*!
\fn void QRect::setWidth(int width)
Sets the width of the rectangle to the given \a width. The right
edge is changed, but not the left one.
\sa width(), setSize()
*/
/*!
\fn void QRect::setHeight(int height)
Sets the height of the rectangle to the given \a height. The bottom
edge is changed, but not the top one.
\sa height(), setSize()
*/
/*!
\fn void QRect::setSize(const QSize &size)
Sets the size of the rectangle to the given \a size. The top-left
corner is not moved.
\sa size(), setWidth(), setHeight()
*/
/*!
\fn bool QRect::contains(const QPoint &point, bool proper) const
Returns true if the given \a point is inside or on the edge of
the rectangle, otherwise returns false. If \a proper is true, this
function only returns true if the given \a point is \e inside the
rectangle (i.e., not on the edge).
\sa intersects()
*/
bool QRect::contains(const QPoint &p, bool proper) const
{
int l, r;
if (x2 < x1 - 1) {
l = x2;
r = x1;
} else {
l = x1;
r = x2;
}
if (proper) {
if (p.x() <= l || p.x() >= r)
return false;
} else {
if (p.x() < l || p.x() > r)
return false;
}
int t, b;
if (y2 < y1 - 1) {
t = y2;
b = y1;
} else {
t = y1;
b = y2;
}
if (proper) {
if (p.y() <= t || p.y() >= b)
return false;
} else {
if (p.y() < t || p.y() > b)
return false;
}
return true;
}
/*!
\fn bool QRect::contains(int x, int y, bool proper) const
\overload
Returns true if the point (\a x, \a y) is inside or on the edge of
the rectangle, otherwise returns false. If \a proper is true, this
function only returns true if the point is entirely inside the
rectangle(not on the edge).
*/
/*!
\fn bool QRect::contains(int x, int y) const
\overload
Returns true if the point (\a x, \a y) is inside this rectangle,
otherwise returns false.
*/
/*!
\fn bool QRect::contains(const QRect &rectangle, bool proper) const
\overload
Returns true if the given \a rectangle is inside this rectangle.
otherwise returns false. If \a proper is true, this function only
returns true if the \a rectangle is entirely inside this
rectangle (not on the edge).
*/
bool QRect::contains(const QRect &r, bool proper) const
{
if (isNull() || r.isNull())
return false;
int l1 = x1;
int r1 = x1;
if (x2 - x1 + 1 < 0)
l1 = x2;
else
r1 = x2;
int l2 = r.x1;
int r2 = r.x1;
if (r.x2 - r.x1 + 1 < 0)
l2 = r.x2;
else
r2 = r.x2;
if (proper) {
if (l2 <= l1 || r2 >= r1)
return false;
} else {
if (l2 < l1 || r2 > r1)
return false;
}
int t1 = y1;
int b1 = y1;
if (y2 - y1 + 1 < 0)
t1 = y2;
else
b1 = y2;
int t2 = r.y1;
int b2 = r.y1;
if (r.y2 - r.y1 + 1 < 0)
t2 = r.y2;
else
b2 = r.y2;
if (proper) {
if (t2 <= t1 || b2 >= b1)
return false;
} else {
if (t2 < t1 || b2 > b1)
return false;
}
return true;
}
/*!
\fn QRect& QRect::operator|=(const QRect &rectangle)
Unites this rectangle with the given \a rectangle.
\sa united(), operator|()
*/
/*!
\fn QRect& QRect::operator&=(const QRect &rectangle)
Intersects this rectangle with the given \a rectangle.
\sa intersected(), operator&()
*/
/*!
\fn QRect QRect::operator|(const QRect &rectangle) const
Returns the bounding rectangle of this rectangle and the given \a
rectangle.
\sa operator|=(), united()
*/
QRect QRect::operator|(const QRect &r) const
{
if (isNull())
return r;
if (r.isNull())
return *this;
int l1 = x1;
int r1 = x1;
if (x2 - x1 + 1 < 0)
l1 = x2;
else
r1 = x2;
int l2 = r.x1;
int r2 = r.x1;
if (r.x2 - r.x1 + 1 < 0)
l2 = r.x2;
else
r2 = r.x2;
int t1 = y1;
int b1 = y1;
if (y2 - y1 + 1 < 0)
t1 = y2;
else
b1 = y2;
int t2 = r.y1;
int b2 = r.y1;
if (r.y2 - r.y1 + 1 < 0)
t2 = r.y2;
else
b2 = r.y2;
QRect tmp;
tmp.x1 = qMin(l1, l2);
tmp.x2 = qMax(r1, r2);
tmp.y1 = qMin(t1, t2);
tmp.y2 = qMax(b1, b2);
return tmp;
}
/*!
\fn QRect QRect::unite(const QRect &rectangle) const
\obsolete
Use united(\a rectangle) instead.
*/
/*!
\fn QRect QRect::united(const QRect &rectangle) const
\since 4.2
Returns the bounding rectangle of this rectangle and the given \a rectangle.
\image qrect-unite.png
\sa intersected()
*/
/*!
\fn QRect QRect::operator&(const QRect &rectangle) const
Returns the intersection of this rectangle and the given \a
rectangle. Returns an empty rectangle if there is no intersection.
\sa operator&=(), intersected()
*/
QRect QRect::operator&(const QRect &r) const
{
if (isNull() || r.isNull())
return QRect();
int l1 = x1;
int r1 = x1;
if (x2 - x1 + 1 < 0)
l1 = x2;
else
r1 = x2;
int l2 = r.x1;
int r2 = r.x1;
if (r.x2 - r.x1 + 1 < 0)
l2 = r.x2;
else
r2 = r.x2;
if (l1 > r2 || l2 > r1)
return QRect();
int t1 = y1;
int b1 = y1;
if (y2 - y1 + 1 < 0)
t1 = y2;
else
b1 = y2;
int t2 = r.y1;
int b2 = r.y1;
if (r.y2 - r.y1 + 1 < 0)
t2 = r.y2;
else
b2 = r.y2;
if (t1 > b2 || t2 > b1)
return QRect();
QRect tmp;
tmp.x1 = qMax(l1, l2);
tmp.x2 = qMin(r1, r2);
tmp.y1 = qMax(t1, t2);
tmp.y2 = qMin(b1, b2);
return tmp;
}
/*!
\fn QRect QRect::intersect(const QRect &rectangle) const
\obsolete
Use intersected(\a rectangle) instead.
*/
/*!
\fn QRect QRect::intersected(const QRect &rectangle) const
\since 4.2
Returns the intersection of this rectangle and the given \a
rectangle. Note that \c{r.intersected(s)} is equivalent to \c{r & s}.
\image qrect-intersect.png
\sa intersects(), united(), operator&=()
*/
/*!
\fn bool QRect::intersects(const QRect &rectangle) const
Returns true if this rectangle intersects with the given \a
rectangle (i.e., there is at least one pixel that is within both
rectangles), otherwise returns false.
The intersection rectangle can be retrieved using the intersected()
function.
\sa contains()
*/
bool QRect::intersects(const QRect &r) const
{
if (isNull() || r.isNull())
return false;
int l1 = x1;
int r1 = x1;
if (x2 - x1 + 1 < 0)
l1 = x2;
else
r1 = x2;
int l2 = r.x1;
int r2 = r.x1;
if (r.x2 - r.x1 + 1 < 0)
l2 = r.x2;
else
r2 = r.x2;
if (l1 > r2 || l2 > r1)
return false;
int t1 = y1;
int b1 = y1;
if (y2 - y1 + 1 < 0)
t1 = y2;
else
b1 = y2;
int t2 = r.y1;
int b2 = r.y1;
if (r.y2 - r.y1 + 1 < 0)
t2 = r.y2;
else
b2 = r.y2;
if (t1 > b2 || t2 > b1)
return false;
return true;
}
/*!
\fn bool operator==(const QRect &r1, const QRect &r2)
\relates QRect
Returns true if the rectangles \a r1 and \a r2 are equal,
otherwise returns false.
*/
/*!
\fn bool operator!=(const QRect &r1, const QRect &r2)
\relates QRect
Returns true if the rectangles \a r1 and \a r2 are different, otherwise
returns false.
*/
/*****************************************************************************
QRect stream functions
*****************************************************************************/
#ifndef QT_NO_DATASTREAM
/*!
\fn QDataStream &operator<<(QDataStream &stream, const QRect &rectangle)
\relates QRect
Writes the given \a rectangle to the given \a stream, and returns
a reference to the stream.
\sa {Serializing Qt Data Types}
*/
QDataStream &operator<<(QDataStream &s, const QRect &r)
{
if (s.version() == 1)
s << (qint16)r.left() << (qint16)r.top()
<< (qint16)r.right() << (qint16)r.bottom();
else
s << (qint32)r.left() << (qint32)r.top()
<< (qint32)r.right() << (qint32)r.bottom();
return s;
}
/*!
\fn QDataStream &operator>>(QDataStream &stream, QRect &rectangle)
\relates QRect
Reads a rectangle from the given \a stream into the given \a
rectangle, and returns a reference to the stream.
\sa {Serializing Qt Data Types}
*/
QDataStream &operator>>(QDataStream &s, QRect &r)
{
if (s.version() == 1) {
qint16 x1, y1, x2, y2;
s >> x1; s >> y1; s >> x2; s >> y2;
r.setCoords(x1, y1, x2, y2);
}
else {
qint32 x1, y1, x2, y2;
s >> x1; s >> y1; s >> x2; s >> y2;
r.setCoords(x1, y1, x2, y2);
}
return s;
}
#endif // QT_NO_DATASTREAM
#ifndef QT_NO_DEBUG_STREAM
QDebug operator<<(QDebug dbg, const QRect &r) {
dbg.nospace() << "QRect(" << r.x() << ',' << r.y() << ' '
<< r.width() << 'x' << r.height() << ')';
return dbg.space();
}
#endif
/*!
\class QRectF
\ingroup painting
\brief The QRectF class defines a rectangle in the plane using floating
point precision.
A rectangle is normally expressed as an upper-left corner and a
size. The size (width and height) of a QRectF is always equivalent
to the mathematical rectangle that forms the basis for its
rendering.
A QRectF can be constructed with a set of left, top, width and
height integers, or from a QPoint and a QSize. The following code
creates two identical rectangles.
\snippet doc/src/snippets/code/src_corelib_tools_qrect.cpp 1
There is also a third constructor creating a QRectF from a QRect,
and a corresponding toRect() function that returns a QRect object
based on the values of this rectangle (note that the coordinates
in the returned rectangle are rounded to the nearest integer).
The QRectF class provides a collection of functions that return
the various rectangle coordinates, and enable manipulation of
these. QRectF also provide functions to move the rectangle
relative to the various coordinates. In addition there is a
moveTo() function that moves the rectangle, leaving its top left
corner at the given coordinates. Alternatively, the translate()
function moves the rectangle the given offset relative to the
current position, and the translated() function returns a
translated copy of this rectangle.
The size() function returns the rectange's dimensions as a
QSize. The dimensions can also be retrieved separately using the
width() and height() functions. To manipulate the dimensions use
the setSize(), setWidth() or setHeight() functions. Alternatively,
the size can be changed by applying either of the functions
setting the rectangle coordinates, for example, setBottom() or
setRight().
The contains() function tells whether a given point is inside the
rectangle or not, and the intersects() function returns true if
this rectangle intersects with a given rectangle (otherwise
false). The QRectF class also provides the intersected() function
which returns the intersection rectangle, and the united() function
which returns the rectangle that encloses the given rectangle and
this:
\table
\row
\o \inlineimage qrect-intersect.png
\o \inlineimage qrect-unite.png
\row
\o intersected()
\o united()
\endtable
The isEmpty() function returns true if the rectangle's width or
height is less than, or equal to, 0. Note that an empty rectangle
is not valid: The isValid() function returns true if both width
and height is larger than 0. A null rectangle (isNull() == true)
on the other hand, has both width and height set to 0.
Note that due to the way QRect and QRectF are defined, an
empty QRectF is defined in essentially the same way as QRect.
Finally, QRectF objects can be streamed as well as compared.
\tableofcontents
\section1 Rendering
When using an \l {QPainter::Antialiasing}{anti-aliased} painter,
the boundary line of a QRectF will be rendered symmetrically on both
sides of the mathematical rectangle's boundary line. But when
using an aliased painter (the default) other rules apply.
Then, when rendering with a one pixel wide pen the QRectF's boundary
line will be rendered to the right and below the mathematical
rectangle's boundary line.
When rendering with a two pixels wide pen the boundary line will
be split in the middle by the mathematical rectangle. This will be
the case whenever the pen is set to an even number of pixels,
while rendering with a pen with an odd number of pixels, the spare
pixel will be rendered to the right and below the mathematical
rectangle as in the one pixel case.
\table
\row
\o \inlineimage qrect-diagram-zero.png
\o \inlineimage qrectf-diagram-one.png
\row
\o Logical representation
\o One pixel wide pen
\row
\o \inlineimage qrectf-diagram-two.png
\o \inlineimage qrectf-diagram-three.png
\row
\o Two pixel wide pen
\o Three pixel wide pen
\endtable
\section1 Coordinates
The QRectF class provides a collection of functions that return
the various rectangle coordinates, and enable manipulation of
these. QRectF also provide functions to move the rectangle
relative to the various coordinates.
For example: the bottom(), setBottom() and moveBottom() functions:
bottom() returns the y-coordinate of the rectangle's bottom edge,
setBottom() sets the bottom edge of the rectangle to the given y
coordinate (it may change the height, but will never change the
rectangle's top edge) and moveBottom() moves the entire rectangle
vertically, leaving the rectangle's bottom edge at the given y
coordinate and its size unchanged.
\image qrectf-coordinates.png
It is also possible to add offsets to this rectangle's coordinates
using the adjust() function, as well as retrieve a new rectangle
based on adjustments of the original one using the adjusted()
function. If either of the width and height is negative, use the
normalized() function to retrieve a rectangle where the corners
are swapped.
In addition, QRectF provides the getCoords() function which extracts
the position of the rectangle's top-left and bottom-right corner,
and the getRect() function which extracts the rectangle's top-left
corner, width and height. Use the setCoords() and setRect()
function to manipulate the rectangle's coordinates and dimensions
in one go.
\sa QRect, QRegion
*/
/*****************************************************************************
QRectF member functions
*****************************************************************************/
/*!
\fn QRectF::QRectF()
Constructs a null rectangle.
\sa isNull()
*/
/*!
\fn QRectF::QRectF(const QPointF &topLeft, const QSizeF &size)
Constructs a rectangle with the given \a topLeft corner and the given \a size.
\sa setTopLeft(), setSize()
*/
/*!
\fn QRectF::QRectF(const QPointF &topLeft, const QPointF &bottomRight)
\since 4.3
Constructs a rectangle with the given \a topLeft and \a bottomRight corners.
\sa setTopLeft(), setBottomRight()
*/
/*!
\fn QRectF::QRectF(qreal x, qreal y, qreal width, qreal height)
Constructs a rectangle with (\a x, \a y) as its top-left corner
and the given \a width and \a height.
\sa setRect()
*/
/*!
\fn QRectF::QRectF(const QRect &rectangle)
Constructs a QRectF rectangle from the given QRect \a rectangle.
\sa toRect()
*/
/*!
\fn bool QRectF::isNull() const
Returns true if the rectangle is a null rectangle, otherwise returns false.
A null rectangle has both the width and the height set to 0. A
null rectangle is also empty, and hence not valid.
\sa isEmpty(), isValid()
*/
/*!
\fn bool QRectF::isEmpty() const
Returns true if the rectangle is empty, otherwise returns false.
An empty rectangle has width() <= 0 or height() <= 0. An empty
rectangle is not valid (i.e., isEmpty() == !isValid()).
Use the normalized() function to retrieve a rectangle where the
corners are swapped.
\sa isNull(), isValid(), normalized()
*/
/*!
\fn bool QRectF::isValid() const
Returns true if the rectangle is valid, otherwise returns false.
A valid rectangle has a width() > 0 and height() > 0. Note that
non-trivial operations like intersections are not defined for
invalid rectangles. A valid rectangle is not empty (i.e., isValid()
== !isEmpty()).
\sa isNull(), isEmpty(), normalized()
*/
/*!
Returns a normalized rectangle; i.e., a rectangle that has a
non-negative width and height.
If width() < 0 the function swaps the left and right corners, and
it swaps the top and bottom corners if height() < 0.
\sa isValid(), isEmpty()
*/
QRectF QRectF::normalized() const
{
QRectF r = *this;
if (r.w < 0) {
r.xp += r.w;
r.w = -r.w;
}
if (r.h < 0) {
r.yp += r.h;
r.h = -r.h;
}
return r;
}
/*!
\fn qreal QRectF::x() const
Returns the x-coordinate of the rectangle's left edge. Equivalent
to left().
\sa setX(), y(), topLeft()
*/
/*!
\fn qreal QRectF::y() const
Returns the y-coordinate of the rectangle's top edge. Equivalent
to top().
\sa setY(), x(), topLeft()
*/
/*!
\fn void QRectF::setLeft(qreal x)
Sets the left edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the right
edge of the rectangle.
Equivalent to setX().
\sa left(), moveLeft()
*/
/*!
\fn void QRectF::setTop(qreal y)
Sets the top edge of the rectangle to the given \a y coordinate. May
change the height, but will never change the bottom edge of the
rectangle.
Equivalent to setY().
\sa top(), moveTop()
*/
/*!
\fn void QRectF::setRight(qreal x)
Sets the right edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the left
edge of the rectangle.
\sa right(), moveRight()
*/
/*!
\fn void QRectF::setBottom(qreal y)
Sets the bottom edge of the rectangle to the given \a y
coordinate. May change the height, but will never change the top
edge of the rectangle.
\sa bottom(), moveBottom()
*/
/*!
\fn void QRectF::setX(qreal x)
Sets the left edge of the rectangle to the given \a x
coordinate. May change the width, but will never change the right
edge of the rectangle.
Equivalent to setLeft().
\sa x(), setY(), setTopLeft()
*/
/*!
\fn void QRectF::setY(qreal y)
Sets the top edge of the rectangle to the given \a y
coordinate. May change the height, but will never change the
bottom edge of the rectangle.
Equivalent to setTop().
\sa y(), setX(), setTopLeft()
*/
/*!
\fn void QRectF::setTopLeft(const QPointF &position)
Set the top-left corner of the rectangle to the given \a
position. May change the size, but will never change the
bottom-right corner of the rectangle.
\sa topLeft(), moveTopLeft()
*/
/*!
\fn void QRectF::setBottomRight(const QPointF &position)
Set the bottom-right corner of the rectangle to the given \a
position. May change the size, but will never change the
top-left corner of the rectangle.
\sa bottomRight(), moveBottomRight()
*/
/*!
\fn void QRectF::setTopRight(const QPointF &position)
Set the top-right corner of the rectangle to the given \a
position. May change the size, but will never change the
bottom-left corner of the rectangle.
\sa topRight(), moveTopRight()
*/
/*!
\fn void QRectF::setBottomLeft(const QPointF &position)
Set the bottom-left corner of the rectangle to the given \a
position. May change the size, but will never change the
top-right corner of the rectangle.
\sa bottomLeft(), moveBottomLeft()
*/
/*!
\fn QPointF QRectF::center() const
Returns the center point of the rectangle.
\sa moveCenter()
*/
/*!
\fn void QRectF::getRect(qreal *x, qreal *y, qreal *width, qreal *height) const
Extracts the position of the rectangle's top-left corner to *\a x and
*\a y, and its dimensions to *\a width and *\a height.
\sa setRect(), getCoords()
*/
/*!
\fn void QRectF::getCoords(qreal *x1, qreal *y1, qreal *x2, qreal *y2) const
Extracts the position of the rectangle's top-left corner to *\a x1
and *\a y1, and the position of the bottom-right corner to *\a x2 and
*\a y2.
\sa setCoords(), getRect()
*/
/*!
\fn void QRectF::moveLeft(qreal x)
Moves the rectangle horizontally, leaving the rectangle's left
edge at the given \a x coordinate. The rectangle's size is
unchanged.
\sa left(), setLeft(), moveRight()
*/
/*!
\fn void QRectF::moveTop(qreal y)
Moves the rectangle vertically, leaving the rectangle's top line
at the given \a y coordinate. The rectangle's size is unchanged.
\sa top(), setTop(), moveBottom()
*/
/*!
\fn void QRectF::moveRight(qreal x)
Moves the rectangle horizontally, leaving the rectangle's right
edge at the given \a x coordinate. The rectangle's size is
unchanged.
\sa right(), setRight(), moveLeft()
*/
/*!
\fn void QRectF::moveBottom(qreal y)
Moves the rectangle vertically, leaving the rectangle's bottom
edge at the given \a y coordinate. The rectangle's size is
unchanged.
\sa bottom(), setBottom(), moveTop()
*/
/*!
\fn void QRectF::moveTopLeft(const QPointF &position)
Moves the rectangle, leaving the top-left corner at the given \a
position. The rectangle's size is unchanged.
\sa setTopLeft(), moveTop(), moveLeft()
*/
/*!
\fn void QRectF::moveBottomRight(const QPointF &position)
Moves the rectangle, leaving the bottom-right corner at the given
\a position. The rectangle's size is unchanged.
\sa setBottomRight(), moveBottom(), moveRight()
*/
/*!
\fn void QRectF::moveTopRight(const QPointF &position)
Moves the rectangle, leaving the top-right corner at the given
\a position. The rectangle's size is unchanged.
\sa setTopRight(), moveTop(), moveRight()
*/
/*!
\fn void QRectF::moveBottomLeft(const QPointF &position)
Moves the rectangle, leaving the bottom-left corner at the given
\a position. The rectangle's size is unchanged.
\sa setBottomLeft(), moveBottom(), moveLeft()
*/
/*!
\fn void QRectF::moveTo(qreal x, qreal y)
Moves the rectangle, leaving the top-left corner at the given
position (\a x, \a y). The rectangle's size is unchanged.
\sa translate(), moveTopLeft()
*/
/*!
\fn void QRectF::moveTo(const QPointF &position)
\overload
Moves the rectangle, leaving the top-left corner at the given \a
position.
*/
/*!
\fn void QRectF::translate(qreal dx, qreal dy)
Moves the rectangle \a dx along the x-axis and \a dy along the y-axis,
relative to the current position. Positive values move the rectangle to the
right and downwards.
\sa moveTopLeft(), moveTo(), translated()
*/
/*!
\fn void QRectF::translate(const QPointF &offset)
\overload
Moves the rectangle \a{offset}.\l{QPointF::x()}{x()} along the x
axis and \a{offset}.\l{QPointF::y()}{y()} along the y axis,
relative to the current position.
*/
/*!
\fn QRectF QRectF::translated(qreal dx, qreal dy) const
Returns a copy of the rectangle that is translated \a dx along the
x axis and \a dy along the y axis, relative to the current
position. Positive values move the rectangle to the right and
down.
\sa translate()
*/
/*!
\fn QRectF QRectF::translated(const QPointF &offset) const
\overload
Returns a copy of the rectangle that is translated
\a{offset}.\l{QPointF::x()}{x()} along the x axis and
\a{offset}.\l{QPointF::y()}{y()} along the y axis, relative to the
current position.
*/
/*!
\fn void QRectF::setRect(qreal x, qreal y, qreal width, qreal height)
Sets the coordinates of the rectangle's top-left corner to (\a x,
\a y), and its size to the given \a width and \a height.
\sa getRect(), setCoords()
*/
/*!
\fn void QRectF::setCoords(qreal x1, qreal y1, qreal x2, qreal y2)
Sets the coordinates of the rectangle's top-left corner to (\a x1,
\a y1), and the coordinates of its bottom-right corner to (\a x2,
\a y2).
\sa getCoords() setRect()
*/
/*!
\fn QRectF QRectF::adjusted(qreal dx1, qreal dy1, qreal dx2, qreal dy2) const
Returns a new rectangle with \a dx1, \a dy1, \a dx2 and \a dy2
added respectively to the existing coordinates of this rectangle.
\sa adjust()
*/
/*! \fn void QRectF::adjust(qreal dx1, qreal dy1, qreal dx2, qreal dy2)
Adds \a dx1, \a dy1, \a dx2 and \a dy2 respectively to the
existing coordinates of the rectangle.
\sa adjusted(), setRect()
*/
/*!
\fn QSizeF QRectF::size() const
Returns the size of the rectangle.
\sa setSize(), width(), height()
*/
/*!
\fn qreal QRectF::width() const
Returns the width of the rectangle.
\sa setWidth(), height(), size()
*/
/*!
\fn qreal QRectF::height() const
Returns the height of the rectangle.
\sa setHeight(), width(), size()
*/
/*!
\fn void QRectF::setWidth(qreal width)
Sets the width of the rectangle to the given \a width. The right
edge is changed, but not the left one.
\sa width(), setSize()
*/
/*!
\fn void QRectF::setHeight(qreal height)
Sets the height of the rectangle to the given \a height. The bottom
edge is changed, but not the top one.
\sa height(), setSize()
*/
/*!
\fn void QRectF::setSize(const QSizeF &size)
Sets the size of the rectangle to the given \a size. The top-left
corner is not moved.
\sa size(), setWidth(), setHeight()
*/
/*!
\fn bool QRectF::contains(const QPointF &point) const
Returns true if the given \a point is inside or on the edge of the
rectangle; otherwise returns false.
\sa intersects()
*/
bool QRectF::contains(const QPointF &p) const
{
qreal l = xp;
qreal r = xp;
if (w < 0)
l += w;
else
r += w;
if (l == r) // null rect
return false;
if (p.x() < l || p.x() > r)
return false;
qreal t = yp;
qreal b = yp;
if (h < 0)
t += h;
else
b += h;
if (t == b) // null rect
return false;
if (p.y() < t || p.y() > b)
return false;
return true;
}
/*!
\fn bool QRectF::contains(qreal x, qreal y) const
\overload
Returns true if the point (\a x, \a y) is inside or on the edge of
the rectangle; otherwise returns false.
*/
/*!
\fn bool QRectF::contains(const QRectF &rectangle) const
\overload
Returns true if the given \a rectangle is inside this rectangle;
otherwise returns false.
*/
bool QRectF::contains(const QRectF &r) const
{
qreal l1 = xp;
qreal r1 = xp;
if (w < 0)
l1 += w;
else
r1 += w;
if (l1 == r1) // null rect
return false;
qreal l2 = r.xp;
qreal r2 = r.xp;
if (r.w < 0)
l2 += r.w;
else
r2 += r.w;
if (l2 == r2) // null rect
return false;
if (l2 < l1 || r2 > r1)
return false;
qreal t1 = yp;
qreal b1 = yp;
if (h < 0)
t1 += h;
else
b1 += h;
if (t1 == b1) // null rect
return false;
qreal t2 = r.yp;
qreal b2 = r.yp;
if (r.h < 0)
t2 += r.h;
else
b2 += r.h;
if (t2 == b2) // null rect
return false;
if (t2 < t1 || b2 > b1)
return false;
return true;
}
/*!
\fn qreal QRectF::left() const
Returns the x-coordinate of the rectangle's left edge. Equivalent
to x().
\sa setLeft(), topLeft(), bottomLeft()
*/
/*!
\fn qreal QRectF::top() const
Returns the y-coordinate of the rectangle's top edge. Equivalent
to y().
\sa setTop(), topLeft(), topRight()
*/
/*!
\fn qreal QRectF::right() const
Returns the x-coordinate of the rectangle's right edge.
\sa setRight(), topRight(), bottomRight()
*/
/*!
\fn qreal QRectF::bottom() const
Returns the y-coordinate of the rectangle's bottom edge.
\sa setBottom(), bottomLeft(), bottomRight()
*/
/*!
\fn QPointF QRectF::topLeft() const
Returns the position of the rectangle's top-left corner.
\sa setTopLeft(), top(), left()
*/
/*!
\fn QPointF QRectF::bottomRight() const
Returns the position of the rectangle's bottom-right corner.
\sa setBottomRight(), bottom(), right()
*/
/*!
\fn QPointF QRectF::topRight() const
Returns the position of the rectangle's top-right corner.
\sa setTopRight(), top(), right()
*/
/*!
\fn QPointF QRectF::bottomLeft() const
Returns the position of the rectangle's bottom-left corner.
\sa setBottomLeft(), bottom(), left()
*/
/*!
\fn QRectF& QRectF::operator|=(const QRectF &rectangle)
Unites this rectangle with the given \a rectangle.
\sa united(), operator|()
*/
/*!
\fn QRectF& QRectF::operator&=(const QRectF &rectangle)
Intersects this rectangle with the given \a rectangle.
\sa intersected(), operator|=()
*/
/*!
\fn QRectF QRectF::operator|(const QRectF &rectangle) const
Returns the bounding rectangle of this rectangle and the given \a rectangle.
\sa united(), operator|=()
*/
QRectF QRectF::operator|(const QRectF &r) const
{
if (isNull())
return r;
if (r.isNull())
return *this;
qreal left = xp;
qreal right = xp;
if (w < 0)
left += w;
else
right += w;
if (r.w < 0) {
left = qMin(left, r.xp + r.w);
right = qMax(right, r.xp);
} else {
left = qMin(left, r.xp);
right = qMax(right, r.xp + r.w);
}
qreal top = yp;
qreal bottom = yp;
if (h < 0)
top += h;
else
bottom += h;
if (r.h < 0) {
top = qMin(top, r.yp + r.h);
bottom = qMax(bottom, r.yp);
} else {
top = qMin(top, r.yp);
bottom = qMax(bottom, r.yp + r.h);
}
return QRectF(left, top, right - left, bottom - top);
}
/*!
\fn QRectF QRectF::unite(const QRectF &rectangle) const
\obsolete
Use united(\a rectangle) instead.
*/
/*!
\fn QRectF QRectF::united(const QRectF &rectangle) const
\since 4.2
Returns the bounding rectangle of this rectangle and the given \a
rectangle.
\image qrect-unite.png
\sa intersected()
*/
/*!
\fn QRectF QRectF::operator &(const QRectF &rectangle) const
Returns the intersection of this rectangle and the given \a
rectangle. Returns an empty rectangle if there is no intersection.
\sa operator&=(), intersected()
*/
QRectF QRectF::operator&(const QRectF &r) const
{
qreal l1 = xp;
qreal r1 = xp;
if (w < 0)
l1 += w;
else
r1 += w;
if (l1 == r1) // null rect
return QRectF();
qreal l2 = r.xp;
qreal r2 = r.xp;
if (r.w < 0)
l2 += r.w;
else
r2 += r.w;
if (l2 == r2) // null rect
return QRectF();
if (l1 >= r2 || l2 >= r1)
return QRectF();
qreal t1 = yp;
qreal b1 = yp;
if (h < 0)
t1 += h;
else
b1 += h;
if (t1 == b1) // null rect
return QRectF();
qreal t2 = r.yp;
qreal b2 = r.yp;
if (r.h < 0)
t2 += r.h;
else
b2 += r.h;
if (t2 == b2) // null rect
return QRectF();
if (t1 >= b2 || t2 >= b1)
return QRectF();
QRectF tmp;
tmp.xp = qMax(l1, l2);
tmp.yp = qMax(t1, t2);
tmp.w = qMin(r1, r2) - tmp.xp;
tmp.h = qMin(b1, b2) - tmp.yp;
return tmp;
}
/*!
\fn QRectF QRectF::intersect(const QRectF &rectangle) const
\obsolete
Use intersected(\a rectangle) instead.
*/
/*!
\fn QRectF QRectF::intersected(const QRectF &rectangle) const
\since 4.2
Returns the intersection of this rectangle and the given \a
rectangle. Note that \c {r.intersected(s)} is equivalent to \c
{r & s}.
\image qrect-intersect.png
\sa intersects(), united(), operator&=()
*/
/*!
\fn bool QRectF::intersects(const QRectF &rectangle) const
Returns true if this rectangle intersects with the given \a
rectangle (i.e. there is a non-empty area of overlap between
them), otherwise returns false.
The intersection rectangle can be retrieved using the intersected()
function.
\sa contains()
*/
bool QRectF::intersects(const QRectF &r) const
{
qreal l1 = xp;
qreal r1 = xp;
if (w < 0)
l1 += w;
else
r1 += w;
if (l1 == r1) // null rect
return false;
qreal l2 = r.xp;
qreal r2 = r.xp;
if (r.w < 0)
l2 += r.w;
else
r2 += r.w;
if (l2 == r2) // null rect
return false;
if (l1 >= r2 || l2 >= r1)
return false;
qreal t1 = yp;
qreal b1 = yp;
if (h < 0)
t1 += h;
else
b1 += h;
if (t1 == b1) // null rect
return false;
qreal t2 = r.yp;
qreal b2 = r.yp;
if (r.h < 0)
t2 += r.h;
else
b2 += r.h;
if (t2 == b2) // null rect
return false;
if (t1 >= b2 || t2 >= b1)
return false;
return true;
}
/*!
\fn QRect QRectF::toRect() const
Returns a QRect based on the values of this rectangle. Note that the
coordinates in the returned rectangle are rounded to the nearest integer.
\sa QRectF(), toAlignedRect()
*/
/*!
\fn QRect QRectF::toAlignedRect() const
\since 4.3
Returns a QRect based on the values of this rectangle that is the
smallest possible integer rectangle that completely contains this
rectangle.
\sa toRect()
*/
QRect QRectF::toAlignedRect() const
{
int xmin = int(qFloor(xp));
int xmax = int(qCeil(xp + w));
int ymin = int(qFloor(yp));
int ymax = int(qCeil(yp + h));
return QRect(xmin, ymin, xmax - xmin, ymax - ymin);
}
/*!
\fn void QRectF::moveCenter(const QPointF &position)
Moves the rectangle, leaving the center point at the given \a
position. The rectangle's size is unchanged.
\sa center()
*/
/*!
\fn bool operator==(const QRectF &r1, const QRectF &r2)
\relates QRectF
Returns true if the rectangles \a r1 and \a r2 are equal,
otherwise returns false.
*/
/*!
\fn bool operator!=(const QRectF &r1, const QRectF &r2)
\relates QRectF
Returns true if the rectangles \a r1 and \a r2 are different, otherwise
returns false.
*/
/*****************************************************************************
QRectF stream functions
*****************************************************************************/
#ifndef QT_NO_DATASTREAM
/*!
\fn QDataStream &operator<<(QDataStream &stream, const QRectF &rectangle)
\relates QRectF
Writes the \a rectangle to the \a stream, and returns a reference to the
stream.
\sa {Serializing Qt Data Types}
*/
QDataStream &operator<<(QDataStream &s, const QRectF &r)
{
s << double(r.x()) << double(r.y()) << double(r.width()) << double(r.height());
return s;
}
/*!
\fn QDataStream &operator>>(QDataStream &stream, QRectF &rectangle)
\relates QRectF
Reads a \a rectangle from the \a stream, and returns a reference to the
stream.
\sa {Serializing Qt Data Types}
*/
QDataStream &operator>>(QDataStream &s, QRectF &r)
{
double x, y, w, h;
s >> x;
s >> y;
s >> w;
s >> h;
r.setRect(qreal(x), qreal(y), qreal(w), qreal(h));
return s;
}
#endif // QT_NO_DATASTREAM
#ifndef QT_NO_DEBUG_STREAM
QDebug operator<<(QDebug dbg, const QRectF &r) {
dbg.nospace() << "QRectF(" << r.x() << ',' << r.y() << ' '
<< r.width() << 'x' << r.height() << ')';
return dbg.space();
}
#endif
QT_END_NAMESPACE
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