The QPoint class defines a point in the plane using integer precision. More...
Header: | #include <QPoint> |
qmake: | QT += core |
Note: All functions in this class are reentrant.
QPoint(int xpos, int ypos) | |
QPoint() | |
bool | isNull() const |
int | manhattanLength() const |
int & | rx() |
int & | ry() |
void | setX(int x) |
void | setY(int y) |
CGPoint | toCGPoint() const |
int | x() const |
int | y() const |
QPoint & | operator*=(float factor) |
QPoint & | operator*=(double factor) |
QPoint & | operator*=(int factor) |
QPoint & | operator+=(const QPoint &point) |
QPoint & | operator-=(const QPoint &point) |
QPoint & | operator/=(qreal divisor) |
int | dotProduct(const QPoint &p1, const QPoint &p2) |
bool | operator!=(const QPoint &p1, const QPoint &p2) |
const QPoint | operator*(const QPoint &point, float factor) |
const QPoint | operator*(float factor, const QPoint &point) |
const QPoint | operator*(const QPoint &point, double factor) |
const QPoint | operator*(double factor, const QPoint &point) |
const QPoint | operator*(const QPoint &point, int factor) |
const QPoint | operator*(int factor, const QPoint &point) |
const QPoint | operator+(const QPoint &p1, const QPoint &p2) |
const QPoint | operator+(const QPoint &point) |
const QPoint | operator-(const QPoint &p1, const QPoint &p2) |
const QPoint | operator-(const QPoint &point) |
const QPoint | operator/(const QPoint &point, qreal divisor) |
QDataStream & | operator<<(QDataStream &stream, const QPoint &point) |
bool | operator==(const QPoint &p1, const QPoint &p2) |
QDataStream & | operator>>(QDataStream &stream, QPoint &point) |
A point is specified by a x coordinate and an y coordinate which can be accessed using the x() and y() functions. The isNull() function returns true
if both x and y are set to 0. The coordinates can be set (or altered) using the setX() and setY() functions, or alternatively the rx() and ry() functions which return references to the coordinates (allowing direct manipulation).
Given a point p, the following statements are all equivalent:
QPoint p; p.setX(p.x() + 1); p += QPoint(1, 0); p.rx()++;
A QPoint object can also be used as a vector: Addition and subtraction are defined as for vectors (each component is added separately). A QPoint object can also be divided or multiplied by an int
or a qreal
.
In addition, the QPoint class provides the manhattanLength() function which gives an inexpensive approximation of the length of the QPoint object interpreted as a vector. Finally, QPoint objects can be streamed as well as compared.
See also QPointF and QPolygon.
Constructs a point with the given coordinates (xpos, ypos).
Constructs a null point, i.e. with coordinates (0, 0)
See also isNull().
[static]
int QPoint::dotProduct(const QPoint &p1, const QPoint &p2)
QPoint p( 3, 7); QPoint q(-1, 4); int lengthSquared = QPoint::dotProduct(p, q); // lengthSquared becomes 25
Returns the dot product of p1 and p2.
This function was introduced in Qt 5.1.
Returns true
if both the x and y coordinates are set to 0, otherwise returns false
.
Returns the sum of the absolute values of x() and y(), traditionally known as the "Manhattan length" of the vector from the origin to the point. For example:
QPoint oldPosition; MyWidget::mouseMoveEvent(QMouseEvent *event) { QPoint point = event->pos() - oldPosition; if (point.manhattanLength() > 3) // the mouse has moved more than 3 pixels since the oldPosition }
This is a useful, and quick to calculate, approximation to the true length:
double trueLength = std::sqrt(std::pow(x(), 2) + std::pow(y(), 2));
The tradition of "Manhattan length" arises because such distances apply to travelers who can only travel on a rectangular grid, like the streets of Manhattan.
Returns a reference to the x coordinate of this point.
Using a reference makes it possible to directly manipulate x. For example:
QPoint p(1, 2); p.rx()--; // p becomes (0, 2)
Returns a reference to the y coordinate of this point.
Using a reference makes it possible to directly manipulate y. For example:
QPoint p(1, 2); p.ry()++; // p becomes (1, 3)
Sets the x coordinate of this point to the given x coordinate.
Sets the y coordinate of this point to the given y coordinate.
Creates a CGPoint from a QPoint.
This function was introduced in Qt 5.8.
See also QPointF::fromCGPoint().
Returns the x coordinate of this point.
Returns the y coordinate of this point.
Multiplies this point's coordinates by the given factor, and returns a reference to this point.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also operator/=().
Multiplies this point's coordinates by the given factor, and returns a reference to this point. For example:
QPoint p(-1, 4); p *= 2.5; // p becomes (-3, 10)
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also operator/=().
Multiplies this point's coordinates by the given factor, and returns a reference to this point.
See also operator/=().
Adds the given point to this point and returns a reference to this point. For example:
QPoint p( 3, 7); QPoint q(-1, 4); p += q; // p becomes (2, 11)
See also operator-=().
Subtracts the given point from this point and returns a reference to this point. For example:
QPoint p( 3, 7); QPoint q(-1, 4); p -= q; // p becomes (4, 3)
See also operator+=().
This is an overloaded function.
Divides both x and y by the given divisor, and returns a reference to this point. For example:
QPoint p(-3, 10); p /= 2.5; // p becomes (-1, 4)
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also operator*=().
Returns true
if p1 and p2 are not equal; otherwise returns false
.
Returns a copy of the given point multiplied by the given factor.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also QPoint::operator*=().
This is an overloaded function.
Returns a copy of the given point multiplied by the given factor.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also QPoint::operator*=().
Returns a copy of the given point multiplied by the given factor.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also QPoint::operator*=().
This is an overloaded function.
Returns a copy of the given point multiplied by the given factor.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also QPoint::operator*=().
Returns a copy of the given point multiplied by the given factor.
See also QPoint::operator*=().
This is an overloaded function.
Returns a copy of the given point multiplied by the given factor.
See also QPoint::operator*=().
Returns a QPoint object that is the sum of the given points, p1 and p2; each component is added separately.
See also QPoint::operator+=().
Returns point unmodified.
This function was introduced in Qt 5.0.
Returns a QPoint object that is formed by subtracting p2 from p1; each component is subtracted separately.
See also QPoint::operator-=().
This is an overloaded function.
Returns a QPoint object that is formed by changing the sign of both components of the given point.
Equivalent to QPoint(0,0) - point
.
Returns the QPoint formed by dividing both components of the given point by the given divisor.
Note that the result is rounded to the nearest integer as points are held as integers. Use QPointF for floating point accuracy.
See also QPoint::operator/=().
Writes the given point to the given stream and returns a reference to the stream.
See also Serializing Qt Data Types.
Returns true
if p1 and p2 are equal; otherwise returns false.
Reads a point from the given stream into the given point and returns a reference to the stream.
See also Serializing Qt Data Types.
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Licensed under the GNU Free Documentation License, Version 1.3.
https://doc.qt.io/qt-5.13/qpoint.html