问题
I can't understand how scaling and rotation are applied to QGraphicsItem
.
I need to be able to apply rotation and scaling (not necessarily keeping aspect ratio) and I get fully unexpected results.
Rotation must be around the item center. I seem to have no problem doing that - yet if I try to debug the bounding rectangle, I get seemingly wrong values.
If I don't keep aspect ratio, instead of rotation I get a very weird skew, and I have been struggling for quite a while to find the cause and correct it. I hope anybody can find a solution.
For many items - like rectangles - my solution was to give up on resize - and just replace the item with a new one of given size. I even did that for pixmap (though it probably will affect performance a lot).
But I don't know how to do that for text, or a few other types (svg...).
I am trying to understand how scaling is applied, on rotated items, and how to get it applied correctly.
The code below is an experiment where I scale and rotate a text item, and the result... see attached image
#include <QApplication>
#include <QGraphicsView>
#include <QGraphicsTextItem>
void experimentScaling(QGraphicsScene* s)
{
QGraphicsTextItem* ref = new QGraphicsTextItem(); // a reference, not resized
ref->setPlainText("hello world");
s->addItem(ref);
ref->setDefaultTextColor(Qt::red);
ref->setRotation(45);
QGraphicsTextItem* t = new QGraphicsTextItem(); // text item to be experimented on
t->setPlainText("hello world");
s->addItem(t);
QTransform transform; // scale
transform.scale(10, 1);
t->setTransform(transform);
t->update();
QPointF _center = t->boundingRect().center();
qDebug("%f %f %f %f", t->boundingRect().left(), t->boundingRect().top(), t->boundingRect().right(), t->boundingRect().bottom()); // seems to be unscaled...
t->setTransformOriginPoint(_center); // rotation must be around item center - and seems to work even though the bounding rect gives wrong values above
t->setRotation(45); // skewed
t->update();
}
int main(int argc, char *argv[])
{
QApplication app(argc, argv);
QGraphicsScene s;
QGraphicsView view(&s);
s.setSceneRect(-20, -20, 800, 600);
view.show();
experimentScaling(&s);
return app.exec();
}
Reference (red) text rotated 45 degrees, text rotated 45 degrees and resized 10,1:
The resized (black) text should have the same height as the reference (red) - yet is much taller;
The bounding rectangle is no longer a rectangle - it is skewed;
The angle looks much smaller than 45;
Added a resized but not rotated reference as well:
Please help me understand why this behavior is happening and what can I do about it.
I have tried looking into QGraphicsRotation
but I can't figure out how to apply it... All I get is a move instead of rotation.
回答1:
As documented, the item's transformations are mathematically applied in a certain order - this is the order you'd be multiplying the transform matrices in and is, conceptually, the reverse of the order you'd normally think of.
- The
transform
is applied. The origin point must be included in the transform itself, by applying translations during the transform. - The
transformations
are applied - each of them can specify its own center. rotation
thenscale
are applied, both relative totransformOriginPoint
.
When you set transform
to scaling, and set rotation
, the rotation is performed before scaling. The scaling applies to the rotated result - it simply stretches the rotated version horizontally in your case.
You need to somehow enforce the reverse order of operations. The only two ways to do that are:
Stack the transforms in correct order and pass them to
transform
, or.Pass a list of correct transformations to
transformations
.
I'll demonstrate how to do it either way, in an interactive fashion where you can adjust the transform parameters using sliders.
To obtain the correct result using transform
:
QGraphicsItem * item = ....;
QTransform t;
QPointF xlate = item->boundingRect().center();
t.translate(xlate.x(), xlate.y());
t.rotate(angle);
t.scale(xScale, yScale);
t.translate(-xlate.x(), -xlate.y());
item->setTransform(t);
To obtain the correct result using transformations
:
QGraphicsItem * item = ....;
QGraphicsRotation rot;
QGraphicsScale scale;
auto center = item->boundingRect().center();
rot.setOrigin(QVector3D(center));
scale.setOrigin(QVector3D(center()));
item->setTransformations(QList<QGraphicsTransform*>() << &rot << &scale);
Finally, the example:
// https://github.com/KubaO/stackoverflown/tree/master/questions/graphics-transform-32186798
#include <QtWidgets>
struct Controller {
public:
QSlider angle, xScale, yScale;
Controller(QGridLayout & grid, int col) {
angle.setRange(-180, 180);
xScale.setRange(1, 10);
yScale.setRange(1, 10);
grid.addWidget(&angle, 0, col + 0);
grid.addWidget(&xScale, 0, col + 1);
grid.addWidget(&yScale, 0, col + 2);
}
template <typename F> void connect(F && f) { connect(f, f, std::forward<F>(f)); }
template <typename Fa, typename Fx, typename Fy> void connect(Fa && a, Fx && x, Fy && y) {
QObject::connect(&angle, &QSlider::valueChanged, std::forward<Fa>(a));
QObject::connect(&xScale, &QSlider::valueChanged, std::forward<Fx>(x));
QObject::connect(&yScale, &QSlider::valueChanged, std::forward<Fy>(y));
}
QTransform xform(QPointF xlate) {
QTransform t;
t.translate(xlate.x(), xlate.y());
t.rotate(angle.value());
t.scale(xScale.value(), yScale.value());
t.translate(-xlate.x(), -xlate.y());
return t;
}
};
int main(int argc, char **argv)
{
auto text = QStringLiteral("Hello, World!");
QApplication app(argc, argv);
QGraphicsScene scene;
QWidget w;
QGridLayout layout(&w);
QGraphicsView view(&scene);
Controller left(layout, 0), right(layout, 4);
layout.addWidget(&view, 0, 3);
auto ref = new QGraphicsTextItem(text); // a reference, not resized
ref->setDefaultTextColor(Qt::red);
ref->setTransformOriginPoint(ref->boundingRect().center());
ref->setRotation(45);
scene.addItem(ref);
auto leftItem = new QGraphicsTextItem(text); // controlled from the left
leftItem->setDefaultTextColor(Qt::green);
scene.addItem(leftItem);
auto rightItem = new QGraphicsTextItem(text); // controlled from the right
rightItem->setDefaultTextColor(Qt::blue);
scene.addItem(rightItem);
QGraphicsRotation rot;
QGraphicsScale scale;
rightItem->setTransformations(QList<QGraphicsTransform*>() << &rot << &scale);
rot.setOrigin(QVector3D(rightItem->boundingRect().center()));
scale.setOrigin(QVector3D(rightItem->boundingRect().center()));
left.connect([leftItem, &left]{ leftItem->setTransform(left.xform(leftItem->boundingRect().center()));});
right.connect([&rot](int a){ rot.setAngle(a); },
[&scale](int s){ scale.setXScale(s); }, [&scale](int s){ scale.setYScale(s); });
right.angle.setValue(45);
right.xScale.setValue(3);
right.yScale.setValue(1);
view.ensureVisible(scene.sceneRect());
w.show();
return app.exec();
}
回答2:
I was able to make that work by using two separate QTransforms and multiplying them together. Note that the order of transformations matter:
QTransform transform1;
transform1.scale(10, 1);
QTransform transform2;
transform2.rotate(45);
t->setTransform(transform1 * transform2);
来源:https://stackoverflow.com/questions/32186798/resizing-and-rotating-a-qgraphicsitem-results-in-odd-shape