I am trying to create a ground tile that, once is off screen moves to the forward position in front of the other ground tile that is currently in the screen.
I have barely tried anything in code that would be even slightly useful to add to this question. Could someone point me in the right direction to be able to get this done so I don't have to just duplicate hundreds of tiles?
Thanks!
Attach this scrip on your Tileobject.
using UnityEngine;
public class SpawnTiles : MonoBehaviour {
private Material currentTile;
public float speed;
private float offset;
// Use this for initialization
void Start () {
currentTile = GetComponent<Renderer>().material;
}
// Update is called once per frame
void Update () {
offset += 0.001f;
currentTile.SetTextureOffset ("_MainTex", new Vector2 (offset * speed, 0));
}
}
Edit
This is what you want?
If YES, follow theses steps.
Create > 3D Object > Quad (Resize as you want)
Select your tile sprite:
Texture type = texture
Wrap mode = repeat
Now creat new Material: Create > Material
Select: Shader = Unlit/Texture
Texture select your previous texture.
Drag and drop this Material inside Quadobject.
Adjust tiles at inspector.
Result
Creat new scrip SpawnTiles and attach at Quadobject.
using UnityEngine;
public class SpawnTiles : MonoBehaviour {
private Material currentTile;
public float speed;
private float offset;
// Update is called once per frame
void Update () {
GetComponent<Renderer>().material.mainTextureOffset = new Vector2 (Time.time * speed, 0f);
}
}
Ajust tiles movement speed at inspector.
Finish rename Quadobject as you want.
If you want to only move the back tile to the front, you probably don't need it, but I still highly suggest looking into object pooling.
To detect if a camera can't see the tile, use this: Renderer.isVisible
To move the tile, if all the tiles are the same dimensions, you could just increase it's position.x by the amount you need.
I have found one solution using WorldPointToViewport().
Here is my script:
using UnityEngine;
using System.Collections;
public class groundTilingScript : MonoBehaviour {
Transform ground; //For reference to the transform
Camera cam; //Reference to Main Camera
float groundWidth; //The width of the transform, used for calculating current max x position of transform and next placement x position
private float nextXPos = 0.0f; //Store next x position in variable for easier reading
// Use this for initialization
void Start () {
//Set up References
ground = transform;
cam = Camera.main;
//Store Ground width (Width of the ground tile)
groundWidth = ground.GetComponent<Renderer> ().bounds.size.x;
}
// Update is called once per frame
void Update () {
//Create new Vector3 to be used in WorldToViewportPoint so it doesn't use the middle of the ground as reference
Vector3 boxRightPos = new Vector3 (ground.position.x + groundWidth/2, ground.position.y, ground.position.z);
//Store view Position of ground
Vector3 viewPos = cam.WorldToViewportPoint (boxRightPos);
//If the ground tile is left of camera viewport
if (viewPos.x < 0) {
//gameObject is offscreen, destroy it and re-instantiate it at new xPosition
float currentRightX = ground.position.x + groundWidth;
nextXPos = currentRightX + groundWidth;
Instantiate (gameObject, new Vector3 (nextXPos, ground.position.y, ground.position.z), ground.rotation);
Destroy (gameObject);
}
}
}
NOTE: I have to set up two ground tiles initially to give room for camera to go further than the ground tile. (One tile on screen, one off)
Again, this is just my attempt. I am completely open to criticism.
I'm implementing an image viewer on an embedded platform. The hardware is a sort of tablet and has a touch screen as input device. The Qt version I'm using is 5.4.3.
The QGraphicsView is used to display a QGraphicsScene which contains a QGraphicsPixmapItem. The QGraphicsPixmapItem containts the pixmap to display.
The relevant part of the code is the following:
void MyGraphicsView::pinchTriggered(QPinchGesture *gesture)
{
QPinchGesture::ChangeFlags changeFlags = gesture->changeFlags();
if (changeFlags & QPinchGesture::ScaleFactorChanged) {
currentStepScaleFactor = gesture->totalScaleFactor();
}
if (gesture->state() == Qt::GestureFinished) {
scaleFactor *= currentStepScaleFactor;
currentStepScaleFactor = 1;
return;
}
// Compute the scale factor based on the current pinch level
qreal sxy = scaleFactor * currentStepScaleFactor;
// Get the pointer to the currently displayed picture
QList<QGraphicsItem *> listOfItems = items();
QGraphicsItem* item = listOfItems.at(0);
// Scale the picture
item.setScale(sxy);
// Adapt the scene to the scaled picture
setSceneRect(scene()->itemsBoundingRect());
}
As result of the pinch, the pixmap is scaled starting from the top-left corner of the view.
How to scale the pixmap respect to the center of the QPinchGesture?
From The Docs
The item is scaled around its transform origin point, which by default is (0, 0). You can select a different transformation origin by calling setTransformOriginPoint().
That function takes in a QPoint so you would need to find out your centre point first then set the origin point.
void QGraphicsItem::setTransformOriginPoint(const QPointF & origin)
I have a number of classes that inherit from QGraphicsItem, that get to be arranged in a certain way. For simplicity of calculations, I made the scenes, and items, centered in (0, 0) (with the boundingRect() having +/- coordinates).
QGraphicsTextItem subclass defies me, its pos() is relative to top left point.
I have tried a number of things to shift it so it centers in the text center (for example, the suggested solution here - the code referenced actually cuts my text and only shows the bottom left quarter).
I imagined that the solution should be something simple, like
void TextItem::paint(QPainter* painter, const QStyleOptionGraphicsItem* option, QWidget* widget)
{
painter->translate( -boundingRect().width()/2.0, -boundingRect().height()/2.0 );
QGraphicsTextItem::paint(painter, option, widget );
}
the above "sort of" works - but as I increase the item scale -> increase the font, the displayed item is cut off...
I tried to set the pos() - but the problem is, I still need to track the actual position on the scene, so I cannot just replace it.
A slightly unpleasant side effect - centering the QGraphicsView on the element does not work either.
How can I make my QGraphicsTextItem show its position relative to the center of the text ?
Edit: one of the experiments of changing the boundingRect():
QRectF TextItem::boundingRect() const
{
QRectF rect = QGraphicsTextItem::boundingRect();
rect.translate(QPointF(-rect.width()/2.0, -rect.height()/2.0));
return rect;
}
I had to shift the initial position, as well as the resize, to trigger a new position - I was unable to do it in paint() because, as I thought from the start, any repaint would continuously recalculate the position.
Only the initial position needs to be adjusted - but as the font size (or style...) changes, its bounding rectangle also changes, so the position must be recalculated - based on previous position.
In the constructor,
setPos(- boundingRect().width()/2, - boundingRect().height()/2);
in the function that modifies item (font) size,
void TextItem::setSize(int s)
{
QRectF oldRect = boundingRect();
QFont f;
f.setPointSize(s);
setFont(f);
if(m_scale != s)
{
m_scale = s;
qreal x = pos().x() - boundingRect().width()/2.0 + oldRect.width()/2.0;
qreal y = pos().y() - boundingRect().height()/2.0 + oldRect.height()/2.0;
setPos(QPointF(x, y));
}
}
I try to use QGraphicsView to display a map with some QGraphicItem-subclass showing region centers of the map. Conceptually, I organize the map as follow:
QGraphicsView
QGraphicsScene
QGraphicsPixmapItem : background image, fixed until next call of loadSetting
QGraphicsRectItem : legend, position relative to bg is fixed throughout app
QGraphicsEllipseItem : region centers
I want the map to behave as follow:
no scrollbars to be displayed, and the background image fillup all the visible area of the view/scene.
when the widget is re-sized, the QGraphics*Items will re-size themselves accordingly (as if the view is zoomed)
relative positions of QGraphicsEllipseItems, remain fixed until next call of loadSetting()
Now I have problem in getting the background image displayed properly.
Constructor [I'm adding this view to a QTabWidget directly: myTab->addTab("name", my_view_); ]
MyView::MyView(QWidget *parent) : QGraphicsView(parent) {
bg_pixmap_ = new QGraphicsPixmapItem();
legend_ = new MapLegend();
setScene(new QGraphicsScene(this));
scene()->addItem(bg_pixmap_);
scene()->addItem(legend_);
}
Load map setting (during program execution, this method may be invoked multiple times)
void MyView::loadSetting(Config* cfg) {
if (!cfg) return;
/* (a) */
scene()->clearFocus();
scene()->clearSelection();
for (int i = 0; i < symbols_.size(); i++)
scene()->removeItem(symbols_[i]);
qDeleteAll(symbols_);
symbols_.clear();
/* (a) */
/* (b) */
background_ = QPixmap(QString::fromStdString(cfg->district_map));
bg_pixmap_->setPixmap(background_);
for (size_t i = 0; i < cfg->centers.size(); i++) {
qreal x = cfg->centers[i].first * background_.width();
qreal y = cfg->centers[i].second * background_.height();
MapSymbol* item = new MapSymbol(x, y, 10);
symbols_.append(item);
scene()->addItem(item);
}
/* (b) */
update();
}
Questions
Now all items except the 'bg_pixmap_' got displayed, and I checked the 'background_' variable that it loads the image correctly. Is there anything I missed?
How do I implement the resizeEvent of MyView to cope with the desired 'resize-strategy'?
I have a QGraphicsTextItem parented to a QGraphicsItem. I want the QGraphicsTextItem to always reside directly above the QGraphicsItem, but I also want the text to remain the same size when the scale factor goes below 1, i.e. the text remains the size it is at a scale factor of 1 even when the parent graphics item is scaled smaller. I have found that setting the QGraphicsItem::ItemIgnoresTransformations flag to true when the scale factor is below 1 does the trick for retaining the size.
But I can’t seem to find a way to get the position of the text to always remain above the QGraphicsItem. Is there a way to do this? I tried using deviceTransform () function, but the text still moved off of the QGraphicsItem as I scrolled out. What was worse is that some of the text items started “jiggling”, i.e. they started continuously changing their position ever so slightly, so that it looked like they were shaking. If this is the function I need to use, I guess I don’t know how to use it properly.
In the constructor of my QGraphicsItem I’ve added a QGraphicsTextItem:
fTextItem = new QGraphicsTextItem(getName(), this);
fTextItem->setFlag(QGraphicsItem::ItemIgnoresTransformations);
Here is code snippet from paint function of QGraphicsItem
qreal lod = painter->worldTransform().m22();
if(lod <= 1.0) {
fTextItem-setFlag(QGraphicsItem::ItemIgnoresTransformations);
fTextItem->setPos(fTextItem->deviceTransform(view-viewportTransform()).inverted().map(view->mapFromScene(mapToScene(0,0))));
} else {
fTextItem->setFlag(QGraphicsItem::ItemIgnoresTransformations, false);
fTextItem->setPos(0, 0);
}
My suggestion is to subclass QGraphicsSimpleTextItem in this manner:
class TextItem
: public QGraphicsSimpleTextItem
{
public:
TextItem(const QString &text)
: QGraphicsSimpleTextItem(text)
{
}
void paint(QPainter *painter,
const QStyleOptionGraphicsItem *option, QWidget *widget)
{
painter->translate(boundingRect().topLeft());
QGraphicsSimpleTextItem::paint(painter, option, widget);
painter->translate(-boundingRect().topLeft());
}
QRectF boundingRect() const
{
QRectF b = QGraphicsSimpleTextItem::boundingRect();
return QRectF(b.x()-b.width()/2.0, b.y()-b.height()/2.0,
b.width(), b.height());
}
};
QGraphicsSimpleTextItem *mText = new TextItem("Item");
scene()->addItem(mText);
mText->setFlag(QGraphicsItem::ItemIgnoresTransformations, true);
mText->setPos(itemToFollow->pos());
Disclaimer: this may be overkill for what you are trying to do. We had some additional restrictions in our project that made this solution the easiest for us.
We had to do something similar in a project, and it ended up being easiest for us to not use ItemIgnoresTransformations and instead roll our own transform. Here is the main function we use to create a translation-only (no scaling) transform for drawing an item at a specific location. You might be able to modify it for your usage.
static QTransform GenerateTranslationOnlyTransform(
const QTransform &original_transform,
const QPointF &target_point) {
// To draw the unscaled icons, we desire a transform with scaling factors
// of 1 and shearing factors of 0 and the appropriate translation such that
// our icon center ends up at the same point. According to the
// documentation, QTransform transforms a point in the plane to another
// point using the following formulas:
// x' = m11*x + m21*y + dx
// y' = m22*y + m12*x + dy
//
// For our new transform, m11 and m22 (scaling) are 1, and m21 and m12
// (shearing) are 0. Since we want x' and y' to be the same, we have the
// following equations:
// m11*x + m21*y + dx = x + dx[new]
// m22*y + m12*x + dy = y + dy[new]
//
// Thus,
// dx[new] = m11*x - x + m21*y + dx
// dy[new] = m22*y - y + m12*x + dy
qreal dx = original_transform.m11() * target_point.x()
- target_point.x()
+ original_transform.m21() * target_point.y()
+ original_transform.m31();
qreal dy = original_transform.m22() * target_point.y()
- target_point.y()
+ original_transform.m12() * target_point.x()
+ original_transform.m32();
return QTransform::fromTranslate(dx, dy);
}
To use, take the QPainter transform that is passed to the paint method and do something like:
painter->save();
painter->setTransform(GenerateTranslationOnlyTransform(painter->transform(),
some_point));
// Draw your item.
painter->restore();
I've found another solution, which does not involve messing with any transformations or by hand scaling/positioning. There is a hint in QGraphicsItem::ItemIgnoresTransformations flag description:
QGraphicsItem::ItemIgnoresTransformations
The item ignores inherited transformations (i.e., its position is
still anchored to its parent, but the parent or view rotation, zoom or
shear transformations are ignored). [...]
And that's the key! We need two items: a parent that will keep the relative position (without any flags set) and a child item that will do the drawing at parent's (0,0) point (with QGraphicsItem::ItemIgnoresTransformations flag set). Simple as that!
I've encapsulated this functionality into a single class - here is some code:
#include <QGraphicsItem>
#include <QPainter>
class SampleShape : public QGraphicsItem
{
private:
/* This class implements shape drawing */
class SampleShapeImpl : public QGraphicsItem
{
public:
SampleShapeImpl (qreal len, QGraphicsItem *parent = nullptr)
: QGraphicsItem(parent), m_len(len)
{
/* ignore transformations (!) */
setFlag(QGraphicsItem::ItemIgnoresTransformations);
}
QRectF boundingRect (void) const override
{
/* sample bounding rectangle */
return QRectF(-m_len, -m_len, m_len*2, m_len*2);
}
void paint (QPainter *painter, const QStyleOptionGraphicsItem *, QWidget *) override
{
/* draw a shape, (0,0) is an anchor */
painter->drawLine(0, -m_len, 0, m_len);
painter->drawLine(-m_len, 0, m_len, 0);
// ...
}
private:
qreal m_len; // sample shape parameter
};
public:
/* This is actually almost an empty class, you only need to set
* a position and pass any parameters to a SampleShapeImpl class.
*/
SampleShape (qreal x, qreal y, qreal len, QGraphicsItem *parent = nullptr)
: QGraphicsItem(parent), m_impl(len, this) // <-- IMPORTANT!!!
{
/* set position at (x, y), view transformations will apply */
setPos(x, y);
}
QRectF boundingRect (void) const override
{
return QRectF(); // it's just a point, no size
}
void paint (QPainter *, const QStyleOptionGraphicsItem *, QWidget *) override
{
// empty, drawing is done in SampleShapeImpl
}
private:
SampleShapeImpl m_impl;
};
Great answer by Dave Mateer! I had the problem that I wanted to define a different scale factor at different zoom levels. This is how I did it:
void MyGraphicsItem::paint(QPainter * painter, const QStyleOptionGraphicsItem* option, QWidget* widget)
{
//save painter for later operations
painter->save();
QTransform originalTransform = painter->transform();
QPointF originalCenter = rect().center();
qreal dx = originalTransform.m11() * originalCenter.x() + originalTransform.m21() * originalCenter.y() + originalTransform.m31();
qreal dy = originalTransform.m22() * originalCenter.y() + originalTransform.m12() * originalCenter.x() + originalTransform.m32();
//normally our target scale factor is 1, meaning the item has keeps its size, regardless of zoom
//we adjust the scale factor though when the item is smaller than one pixel in comparison to the background image
qreal factor = 1.0;
//check if scale factor if bigger that the item size, and thus it occupies less that a pixel in comparision to the background image
if (rect().width() < originalTransform.m11()) {
//calculate adjusted scale factor
factor = originalTransform.m11() / rect().width();
}
//adjust position according to scale factor
dx -= factor * originalCenter.x();
dy -= factor * originalCenter.y();
//set the new transform for painting
painter->setTransform(QTransform::fromScale(factor, factor) * QTransform::fromTranslate(dx, dy));
//now paint...
QGraphicsXYZItem::paint(painter, option, widget);
//restore original painter
painter->restore();
}
You do need to adjust the bounding rectangle too in that case:
QRectF MyGraphicsItem::boundingRect() const
{
QRectF rect = QGraphicsEllipseItem::boundingRect();
//this is a bit hackish, let me know if you know another way...
if (scene() != NULL && scene()->views().at(0) != NULL)
{
//get viewport transform
QTransform itemTransform = scene()->views().at(0)->transform();
QPointF originalCenter = rect.center();
//calculate back-projected original size of item
qreal realSizeX = rect.width() / itemTransform.m11();
qreal realSizeY = rect.height() / itemTransform.m11();
//check if scale factor is bigger that the item size, and thus it occupies less that a pixel in comparison
//to the background image and adjust size back to equivalent of 1 pixel
realSizeX = realSizeX < 1.0 ? 1.0 : realSizeX;
realSizeY = realSizeY < 1.0 ? 1.0 : realSizeY;
//set adjusted position and size according to scale factor
rect = QRectF(rect.center().x() - realSizeX / 2.0, rect.center().y() - realSizeY / 2.0, realSizeX, realSizeY);
}
return rect;
}
With this solution the item work very well in my case.
Adding to Dave Mateer's answer, I think it'd be helpful to add that in some scenario, you should also maintain proper bounding rectangle (as well as shape) of the object. For me, I need to modify boundingRect() a little too for proper object selection behavior. Remember that the bounding rect of the object will be scaled and transformed as usual if we do NOT use ItemIgnoresTransformations flag. So we also need to rescale the boundingRect to maintain the view independence effect.
To maintain the view-independent bounding rectangle turns out to be quite easy: just grab the scaling factor from deviceTransform(m_view->viewportTransform()).inverted().m11() and multiply this constant to your local coordinate bounding rectangle. For example:
qreal m = this->deviceTransform(m_view->viewportTransform()).inverted().m11();
return QRectF(m*(m_shapeX), m*(m_shapeY),
m*(m_shapeR), m*(m_shapeR));
here is a solution I devised of very moderate complexity :
1) Get the boundingRect() of the parent and map it to scene
2) take the minimum X and Y of this list of points, this is the real origin of your item, in scene coordinates
3) set the position of the child
In Pyside :
br = parent.mapToScene(parent.boundingRect())
realX = min([item.x() for item in br])
realY = min([item.y() for item in br])
child.setPos(parent.mapFromScene(realX, realY)) #modify according to need