5

I'm new to Qt, and from what I've read on qt-project.org and other places; QtQuick seems like an attractive option because of its ability to work on both pointer and touch based devices. My problem is getting it to work well with c++.

I decided to write a variant of Conway's Game of Life as a next step after "Hello World". I am thoroughly mystified as to how to get the "board" -- a [height][width][bytes-per-pixel] array of char -- integrated into the scene graph.

Basically, the process is that the "LifeBoard" iterates through its rules and updates the char*/image. I've got this simple QML:

:::QML
ApplicationWindow {
    id:         life_app_window
    visible:    true
    title: qsTr("Life")

    menuBar: MenuBar {
        Menu {
            title: qsTr("File")
            MenuItem {
                text: qsTr("Quit")
                onTriggered: Qt.quit();
            }
        }
    }

    toolBar: ToolBar {
        id: lifeToolBar;
        ToolButton {
            id: toolButtonQuit
            text: qsTr("Quit")
            onClicked: Qt.quit()
        }
        ToolButton {
            id: toolButtonStop
            text: qsTr("Stop")
            enabled: false
            //onClicked:
        }
        ToolButton {
            id: toolButtonStart
            text: qsTr("Start")
            enabled: true
            //onClicked: //Start life.
        }
        ToolButton {
            id: toolButtonReset
            text: qsTr("Stop")
           // onClicked: //Reset life.
        }
    }

    Flow {
        id: flow1
        anchors.fill: parent
        //*****
        // WHAT GOES HERE
        //*****
    }

    statusBar: StatusBar {
        enabled: false
        Text {
            // Get me from number of iterations
            text: qsTr("Iterations.")
        }
    }
}

I want to image to come from a class with a api kinda like this:

class Life {
    public:
        QImage getImage() {}
        // Or
        char* getPixels(int h, int w, QImage::Format_ARGB8888) {}
}

I have no clue, and hours wading through tutorials did not help. How does one link a char* image in c++ to a ??? in QML so that the QML can start/stop the "Life" loop and so that the "Life" loop and update the char array and notify QML to redraw it?


Note: I've looked at subclassing QQuickImageProvider based on the info here. The problem with this approach is that I cannot see how to let c++ "drive" the on screen image. I wish to pass control from QML to c++ and let c++ tell QML when to update the display with the changed image. Is there a solution with this approach? Or another approach entirely.

  • Hard to tell without seeing your C++. You can use QListModel or QAbstractItemModel to send a list of data from C++ to QML and be able to update them from C++. Then in QML you "just" use the Image{} component in a GridView to represent your game of like grid – koopajah May 15 '14 at 10:28
  • @koopajah I want the image manipilation code to be in a set of private functions. What I want is to have c++ signal QML that an update image is ready, and have QML display that image. Additionally QML should be able call "stop", "start" and "reset" slots to initiale/pause life iterations. – justinzane May 16 '14 at 18:08
7

First way to do that would be creating a Rectangle for each game pixel in QML, which might be fancy for a 8x8 board, but not for a 100x100 board, since you need to write the QML code manually for each pixel.

Thus I'd go for images created in C++ and exposed to QML. You call them via an image provider to allow asynchronous loading. Let Life do the logic only.

The image is called from QML like this:

Image {
    id: board
    source: "image://gameoflife/board"
    height: 400
    width: 400
}

Now gameoflife is the name of the image provider and board the so-called id you can use later.

Register gameoflife in you main.cpp

LifeImageProvider *lifeIP = new LifeImageProvider(life);
engine.addImageProvider("gameoflife", lifeIP);

where engine is your main QQmlApplicationEngine and life an instance of your Life game engine.

LifeImageProvider is your class to create pixeldata. Starts somehow like

class LifeImageProvider : public QQuickImageProvider
{
public:
    LifeImageProvider(Life *myLifeEngine);
    QPixmap requestPixmap(const QString &id, QSize *size, const QSize &requestedSize);

private:
    Life *myLifeEngine_;
};

The important method is requestPixmap, which is called from QML. You need to implement it.

To refresh the game board when Life sends a stateChanged() signal, expose life as a global object to QML:

context->setContextProperty("life", &life);

You can bind the signal to QML

Image {
    id: board
    source: "image://gameoflife/board"
    height: 400
    width: 400
}

Connections {
    target: life
    onStateChanged: {
        board.source = "image://gameoflife/board?" + Math.random()
        // change URL to refresh image. Add random URL part to avoid caching
    }
}
  • How do I invert control so that QML does not initiate display via requestPixmap but rather listens for a signal from c++ and updates the display (via requestPixmap or otherwise) when it receives said signal? The goal is to have, if possible, QML be mostly passive, only providing UI widgets while the timing and logic are in c++. – justinzane May 28 '14 at 1:52
  • See the Connections element I posted. This connects the signal stateChanged of life with and update mechanism, that calls requestPixmap. – Simon Warta May 28 '14 at 9:41
  • 1
    Needing to "write the QML code manually for each pixel" isn't necessarily true; I did once implement Life in QML using a "Grid" element qt-project.org/doc/qt-5/qml-qtquick-grid.html with a "Repeater" to stamp out cell states qt-project.org/doc/qt-5/qml-qtquick-repeater.html; it was horribly slow (~20x20 was the practical limit), although there were some nice aspects like it was easy to specify cell birth/death animated transition effects. A second attempt to do an all-QML life yielded this: stackoverflow.com/a/24467011/24283 which is much faster. – timday Jun 28 '14 at 13:00
  • Concerning caching: the docs specify a way to disable caching: set the cache property in the Image object to false. see: doc.qt.io/qt-5/qquickimageprovider.html#image-caching - don't know since when it is there, but it should save you gui from needlessly caching tons of disposable images. – kratenko Feb 26 '16 at 17:21
  • @kratenko See doc.qt.io/qt-5/qml-qtquick-image.html#cache-prop If it was introduced after Qt 5, it would be documented there (as you can see for the autoTransform property on the same page). So as long as this not a documentation bug, it is available as long as Image is. – Simon Warta Feb 27 '16 at 12:27
1

Just for fun, and at the risk of downvotes for a completely tangential answer, here's a GameOfLife implemented entirely in QML, just put it in a .qml file and run it with qmlscene. Works on Qt 5.3.0, and runs surprisingly (to me) fast on an old Core 2 Duo lappy. I'm sure it'll never be as fast/efficient as a C++ QQuickImageProvider based solution though, but it does make the point it's possible to do quite a lot in QML without resorting to C++.

import QtQuick 2.2

Rectangle {
  id: main
  width: 640
  height: 640
  color: '#000088'

  Timer {
    interval: 1000/60
    running: true
    repeat: true
    onTriggered: {advance();display();}
  }

  Component {
    id: cellComponent
    Rectangle {
      objectName: 'cell'
      property int row: 0
      property int col: 0      
      x: main.width/2+width*col
      y: main.height/2+height*row      
      width: 5
      height: 5
      radius: 2
      smooth: true
      color: '#ffcc00'
    }
  }

  property var cells: null

  Component.onCompleted: {
    cells=[[-1, 0],[-1, 1],[ 0,-1],[ 0, 0],[ 1, 0]];
    display();
  }

  function display() {
    // Just completely regenerate display field each frame
    // TODO: might be nicer to do differential updates, would allow birth/death animations   

    // Nuke all previously displayed cells
    for (var i=0;i<children.length;i++) {
      if (children[i].objectName=='cell') {
        children[i].destroy();
      }
    }

    // Show current set of cells
    for (var i=0;i<cells.length;i++) {
      var c=cellComponent.createObject(
        main,
        {'row':cells[i][0],'col':cells[i][1]}
      );
    }
  }

  function advance() {

    // Build a hash of the currently alive cells and a neighbour count (includes self)
    var a=new Object;
    var n=new Object;
    for (var i=0;i<cells.length;i++) {
      var p=cells[i]
      var r=p[0];
      var c=p[1];
      if (!(r in a)) a[r]=new Object;
      a[r][c]=1;
      for (var dr=r-1;dr<=r+1;dr++) {
        for (var dc=c-1;dc<=c+1;dc++) {
          if (!(dr in n)) n[dr]=new Object;
          if (!(dc in n[dr])) n[dr][dc]=0;
          n[dr][dc]+=1;
        }
      }
    }

    // For all live cells, assess viability
    var kill=[];
    var stay=[];
    for (var r in a) {
      for (var c in a[r]) {
        if (n[r][c]-1<2 || n[r][c]-1>3)
          kill.push([Number(r),Number(c)]);
        else
          stay.push([Number(r),Number(c)]);
      }
    }

    // For neighbours of live cells, assess potential for births
    var born=[];
    for (var r in n) {
      for (var c in n[r]) {
        if (!((r in a) && (c in a[r]))) {
          if (n[r][c]==3)
            born.push([Number(r),Number(c)]);
        }
      }
    }   

    cells=stay.concat(born)
  }
}

And for a pure QML version using GLSL (via a recursive QML ShaderEffect) to compute the Game of Life rules on GPU see here.

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