6
<!DOCTYPE html>
<html>
<head>
    <style type="text/css">
        #canvasOne
        {
            border: 1px solid black;            
        }
    </style>
    <script src="http://code.jquery.com/jquery-1.10.2.js" type="text/javascript"></script>
</head>
<body>
    <div align="center">
        <canvas id="canvasOne">
        </canvas>
    </div>

    <script type="text/javascript">

        var myCanvas = document.getElementById("canvasOne");
        var myContext = myCanvas.getContext("2d");

        var requestAnimationFrame = window.requestAnimationFrame || window.mozRequestAnimationFrame || window.webkitRequestAnimationFrame || window.msRequestAnimationFrame;

        init();

        var numShapes;
        var shapes;
        var dragIndex;
        var dragging;
        var mouseX;
        var mouseY;
        var dragHoldX;
        var dragHoldY;
        var timer;
        var targetX;
        var targetY;
        var easeAmount;
        var bgColor;
        var nodes;
        var colorArr;

        function init()
        {
            myCanvas.width = $(window).width() - 200;
            myCanvas.height = $(window).height() - 200;

            shapes = [];
            nodes = ["0;Person;24828760;Alok Kumar;Gorakhpur;#F44336;28",
                     "0;Suspect;04/Dec/2016;4;Suman_Biswas;#3F51B5;20","1;Rule;4;Apparent Means;3 Parameter;#EEFF41;20",
                     "0;Policy;36QA649749;In-Force;Quarterly;#FF9800;20","3;Product;Pension;Saral Pension;SRPEN;#795548;20","3;Payment;Cheque;Realized;Lucknow;#0091EA;20",
                     "0;Policy;162348873;Lapsed;Quarterly;#FF9800;20","6;Product;Pension;Life-Long Pension;LLPP;#795548;20","6;Payment;Cheque;Realized;Gorakhpur;#0091EA;20",
                     "0;Policy;1EQF178639;Lapsed;Monthly;#FF9800;20","9;Product;Life;Shield;SHIELDA;#795548;20","9;Payment;Demand Draft;Realized;Lucknow;#0091EA;20"];                                          

            numShapes = nodes.length;

            makeShapes();

            drawScreen();       

            myCanvas.addEventListener("mousedown", mouseDownListener, false);
        }

        //drawing
        function makeShapes()
        {
            var tempX;
            var tempY;

            for(var i = 0; i < numShapes; i++)
            {                                   
                var centerX = myCanvas.width/2;
                var centerY = myCanvas.height/2;

                var nodeColor = nodes[i].split(";")[5];

                var nodeRadius = nodes[i].split(";")[6];

                var nodeConnect = nodes[i].split(";")[0];

                if(i == 0)//center of circle
                {                   
                    tempX = centerX
                    tempY = centerY;                    
                }
                else
                {
                    //tempX = Math.random() * (myCanvas.width - tempRadius);
                    //tempY = Math.random() * (myCanvas.height - tempRadius);

                    //var x = x0 + r * Math.cos(2 * Math.PI * i / items);
                    //var y = y0 + r * Math.sin(2 * Math.PI * i / items); 


                    //250 is the distance from center node to outside nodes it can be actual radius in degrees
                    tempX = shapes[nodeConnect].x + 300 * Math.cos(2 * Math.PI * i / numShapes);
                    tempY = shapes[nodeConnect].y + 300 * Math.sin(2 * Math.PI * i / numShapes);                                    
                }

                tempShape = {x: tempX, y: tempY, rad: nodeRadius, color: nodeColor, text: nodes[i]};

                shapes.push(tempShape);
            }       
        }

        //drawing both shape (line and circle) and screen

        function drawScreen()
        {
            myContext.fillStyle = "#ffffff";
            myContext.fillRect(0, 0, myCanvas.width, myCanvas.height);
            drawShapes();
        }

        function drawShapes()
        {       
            //line
            for(var i = 1; i < numShapes; i++)
            {
                myContext.beginPath();
                myContext.strokeStyle = "#B2B19D";

                var nodeConnect = nodes[i].split(";")[0];

                myContext.moveTo(shapes[nodeConnect].x, shapes[nodeConnect].y);
                myContext.lineTo(shapes[i].x, shapes[i].y);
                myContext.stroke();
            }

            //circle        
            for(var i = 0; i < numShapes; i++)
            {                           
                myContext.fillStyle = shapes[i].color;
                myContext.beginPath();
                myContext.arc(shapes[i].x, shapes[i].y, shapes[i].rad, 0, 2*Math.PI, false);                
                myContext.closePath();
                myContext.fill();
            }

            //text
            for(var i = 0; i < numShapes; i++)
            {
                myContext.beginPath();          
                myContext.font = '10pt Arial';
                myContext.fillStyle = 'black';
                var textarr = shapes[i].text.split(";");

                myContext.fillText(textarr[1], shapes[i].x + 30, shapes[i].y - 24);
                /*myContext.fillText(textarr[2], shapes[i].x + 30, shapes[i].y + 1);
                myContext.fillText(textarr[3], shapes[i].x + 30, shapes[i].y + 22);
                myContext.fillText(textarr[4], shapes[i].x + 30, shapes[i].y + 44);*/           
                myContext.closePath();
                myContext.fill();
            }


        }

        //animation

        function mouseDownListener(evt)
        {
            var highestIndex = -1;

            var bRect = myCanvas.getBoundingClientRect();
            mouseX = (evt.clientX - bRect.left) * (myCanvas.width/bRect.width);
            mouseY = (evt.clientY - bRect.top) * (myCanvas.height/bRect.height);

            for(var i = 0; i < numShapes; i++)
            {
                if(hitTest(shapes[i], mouseX, mouseY))
                {
                    dragging = true;
                    if(i > highestIndex)
                    {
                        dragHoldX = mouseX - shapes[i].x;
                        dragHoldY = mouseY - shapes[i].y;
                        highestIndex = i;
                        dragIndex = i;
                    }               
                }
            }

            if(dragging)
            {
                window.addEventListener("mousemove", mouseMoveListener, false);
            }

            myCanvas.removeEventListener("mousedown", mouseDownListener, false);
            window.addEventListener("mouseup", mouseUpListener, false);

            if(evt.preventDefault)
            {
                evt.preventDefault;
            }

            return false;
        }

        function mouseMoveListener(evt)
        {
            var shapeRad = shapes[dragIndex].rad;

            var minX = shapeRad;
            var maxX = myCanvas.width - shapeRad;

            var minY = shapeRad;
            var maxY = myCanvas.height - shapeRad;

            //get mouse position correctly
            var bRect = myCanvas.getBoundingClientRect();
            mouseX = (evt.clientX - bRect.left)*(myCanvas.width / bRect.width);
            mouseY = (evt.clientY - bRect.top)*(myCanvas.height / bRect.height);

            //clamp x and y position to prevent object from dragging outside canvas
            posX = mouseX - dragHoldX;
            posX = (posX < minX) ? minX : ((posX > maxX) ? maxX : posX);
            posY = mouseY - dragHoldY;      
            posY = (posY < minY) ? minY : ((posY > maxY) ? maxY : posY);

            shapes[dragIndex].x = posX;
            shapes[dragIndex].y = posY;

            drawScreen();       
        }

        function mouseUpListener(evt)
        {
            myCanvas.addEventListener("mousedown", mouseDownListener, false);
            window.removeEventListener("mouseup", mouseUpListener, false);

            if(dragging)
            {
                dragging = false;                                   
                window.removeEventListener("mousemove", mouseMoveListener, false);          
            }
        }

        function hitTest(shape, mx, my)
        {
            var dx = mx - shape.x;
            var dy = my - shape.y;

            return(dx * dx + dy * dy < shape.rad * shape.rad);
        }   

    </script>
</body>
</html>
  1. The following canvas animation creates nodes and edges. However due to space constraint, some of the nodes are not visible due to canvas height and width. Even adding overflow css to canvas dosen't help as i am not able to scroll.
  • 2
    canvas context doesn't have a built-in scroll method, either implement it yourself by using translate, transform or setTransform methods, or set your canvas as big as you need and wrap it an other element which will have the required onscreen dimensions, and add to this element the overflow css property. – Kaiido Mar 25 '16 at 12:59
  • can you fix the above written code or some sample examples – Vineet Mar 25 '16 at 13:11
2

So your node drawings don't fit on the canvas size?

You can easily "shrink" your content to fit the visible canvas with just 1 command!

The context.scale(horizontalRescale,verticalRescale) command will shrink every following drawing by your specified horizontalRescale & verticalRescale percentages.

An Important note: You must make horizontalRescale,verticalRescale the same value or your content will be distorted.

The nice thing about using context.scale is that you don't have to change any of the code that draws your nodes ... canvas automatically scales all those nodes for you.

For example, this code will shrink your nodes to 80% of their original size:

var downscaleFactor= 0.80;

context.scale( downscaleFactor, downscaleFactor );

Rather than go through your 200+ lines of code, I leave it to you to calculate downscaleFactor.

|improve this answer|||||
  • It works. Thanx. Apart from scaling option. Is it possible to drag the canvas horizontally and vertically, so that user can see all possible nodes just by scrolling Or if i click on upper node, all nodes connected to it will be visible and canvas will automatically scroll to that position – Vineet Mar 25 '16 at 19:42
  • 1
    Yes, auto-scrolling is possible by redrawing the whole canvas but pulling it horizontally & vertically until your desired node(s) are visible. Just like context.scale in my answer, you can use context.translate( horizontalOffset, verticalOffset) to pull your desired nodes into view. There's no guarantee that all your desired nodes will fit on the available canvas size so you might still have to do context.scale. Good luck with your project! :-) – markE Mar 25 '16 at 20:10
20

<canvas> context doesn't have a built-in scroll method.

You then have multiple ways to circumvent this limitation.

The first one, is as in @markE's answer, to scale your context's matrix so that your drawings fit into the required space. You could also refactor your code so that all coordinates are relative to the canvas size.
This way, you won't need scrollbars and all your drawings will just be scaled appropriately, which is the desirable behavior in most common cases.


But if you really need to have some scrolling feature, here are some ways :


The easiest and most recommended one : let the browser handle it.

You will have to set the size of your canvas to the maximum of your drawings, and wrap it in an other element which will scroll. By setting the overflow:auto css property on the container, our scrollbars appear and we have our scrolling feature.

In following example, the canvas is 5000px wide and the container 200px.

var ctx = canvas.getContext('2d');
ctx.textAlign = 'center';
for (var w = 0; w < canvas.width; w += 100) {
  for (var h = 0; h < canvas.height; h += 100) {
    ctx.fillText(w + ',' + h, w, h);
  }
}
#container {
  width: 200px;
  height: 200px;
  overflow: auto;
  border: 1px solid;
}
canvas{
  display: block;
}
<div id="container">
  <canvas id="canvas" height="5000" width="5000"></canvas>
</div>

Main advantages :

  • easily implemented.
  • users are used to these scrollbars.

Main caveats :

  • You're limited by canvas maximum sizes.
  • If your canvas is animated, you'll also draw for each frame parts of the canvas that aren't visible.
  • You have small control on scrollbars look and you'll still have to implement drag-to-scroll feature yourself for desktop browsers.

A second solution, is to implement this feature yourself, using canvas transform methods : particularly translate, transform and setTransform.

Here is an example :

var ctx = canvas.getContext('2d');

var app = {};
// the total area of our drawings, can be very large now
app.WIDTH = 5000;
app.HEIGHT = 5000;

app.draw = function() {
  // reset everything (clears the canvas + transform + fillStyle + any other property of the context)
  canvas.width = canvas.width;

  // move our context by the inverse of our scrollbars' left and top property
  ctx.setTransform(1, 0, 0, 1, -app.scrollbars.left, -app.scrollbars.top);

  ctx.textAlign = 'center';
  // draw only the visible area
  var visibleLeft = app.scrollbars.left;
  var visibleWidth = visibleLeft + canvas.width;
  var visibleTop = app.scrollbars.top
  var visibleHeight = visibleTop + canvas.height;

  // you probably will have to make other calculations than these ones to get your drawings
  // to draw only where required
  for (var w = visibleLeft; w < visibleWidth + 50; w += 100) {
    for (var h = visibleTop; h < visibleHeight + 50; h += 100) {
      var x = Math.round((w) / 100) * 100;
      var y = Math.round((h) / 100) * 100;
      ctx.fillText(x + ',' + y, x, y);
    }
  }

  // draw our scrollbars on top if needed
  app.scrollbars.draw();
}

app.scrollbars = function() {
  var scrollbars = {};
  // initial position
  scrollbars.left = 0;
  scrollbars.top = 0;
  // a single constructor for both horizontal and vertical	
  var ScrollBar = function(vertical) {
    var that = {
      vertical: vertical
    };

    that.left = vertical ? canvas.width - 10 : 0;
    that.top = vertical ? 0 : canvas.height - 10;
    that.height = vertical ? canvas.height - 10 : 5;
    that.width = vertical ? 5 : canvas.width - 10;
    that.fill = '#dedede';

    that.cursor = {
      radius: 5,
      fill: '#bababa'
    };
    that.cursor.top = vertical ? that.cursor.radius : that.top + that.cursor.radius / 2;
    that.cursor.left = vertical ? that.left + that.cursor.radius / 2 : that.cursor.radius;

    that.draw = function() {
      if (!that.visible) {
        return;
      }
      // remember to reset the matrix
      ctx.setTransform(1, 0, 0, 1, 0, 0);
      // you can give it any shape you like, all canvas drawings operations are possible
      ctx.fillStyle = that.fill;
      ctx.fillRect(that.left, that.top, that.width, that.height);
      ctx.beginPath();
      ctx.arc(that.cursor.left, that.cursor.top, that.cursor.radius, 0, Math.PI * 2);
      ctx.fillStyle = that.cursor.fill;
      ctx.fill();
    };
    // check if we're hovered
    that.isHover = function(x, y) {
      if (x >= that.left - that.cursor.radius && x <= that.left + that.width + that.cursor.radius &&
        y >= that.top - that.cursor.radius && y <= that.top + that.height + that.cursor.radius) {
        // we are so record the position of the mouse and set ourself as the one hovered
        scrollbars.mousePos = vertical ? y : x;
        scrollbars.hovered = that;
        that.visible = true;
        return true;
      }
      // we were visible last call and no wheel event is happening
      else if (that.visible && !scrollbars.willHide) {
        that.visible = false;
        // the app should be redrawn
        return true;
      }
    }

    return that;
  };

  scrollbars.horizontal = ScrollBar(0);
  scrollbars.vertical = ScrollBar(1);

  scrollbars.hovered = null;
  scrollbars.dragged = null;
  scrollbars.mousePos = null;
  // check both of our scrollbars
  scrollbars.isHover = function(x, y) {
    return this.horizontal.isHover(x, y) || this.vertical.isHover(x, y);
  };
  // draw both of our scrollbars
  scrollbars.draw = function() {
    this.horizontal.draw();
    this.vertical.draw();
  };
  // check if one of our scrollbars is visible
  scrollbars.visible = function() {
    return this.horizontal.visible || this.vertical.visible;
  };
  // hide it...
  scrollbars.hide = function() {
    // only if we're not using the mousewheel or dragging the cursor
    if (this.willHide || this.dragged) {
      return;
    }
    this.horizontal.visible = false;
    this.vertical.visible = false;
  };

  // get the area's coord relative to our scrollbar
  var toAreaCoord = function(pos, scrollBar) {
    var sbBase = scrollBar.vertical ? scrollBar.top : scrollBar.left;
    var sbMax = scrollBar.vertical ? scrollBar.height : scrollBar.width;
    var areaMax = scrollBar.vertical ? app.HEIGHT - canvas.height : app.WIDTH - canvas.width;

    var ratio = (pos - sbBase) / (sbMax - sbBase);

    return areaMax * ratio;
  };

  // get the scrollbar's coord relative to our total area
  var toScrollCoords = function(pos, scrollBar) {
    var sbBase = scrollBar.vertical ? scrollBar.top : scrollBar.left;
    var sbMax = scrollBar.vertical ? scrollBar.height : scrollBar.width;
    var areaMax = scrollBar.vertical ? app.HEIGHT - canvas.height : app.WIDTH - canvas.width;

    var ratio = pos / areaMax;

    return ((sbMax - sbBase) * ratio) + sbBase;
  }

  scrollbars.scroll = function() {
      // check which one of the scrollbars is active
      var vertical = this.hovered.vertical;
      // until where our cursor can go
      var maxCursorPos = this.hovered[vertical ? 'height' : 'width'];
      var pos = vertical ? 'top' : 'left';
      // check that we're not out of the bounds
      this.hovered.cursor[pos] = this.mousePos < 0 ? 0 :
        this.mousePos > maxCursorPos ? maxCursorPos : this.mousePos;

      // seems ok so tell the app we scrolled
      this[pos] = toAreaCoord(this.hovered.cursor[pos], this.hovered);
      // redraw everything
      app.draw();
    }
    // because we will hide it after a small time
  scrollbars.willHide;
  // called by the wheel event
  scrollbars.scrollBy = function(deltaX, deltaY) {
    // it's not coming from our scrollbars
    this.hovered = null;
    // we're moving horizontally
    if (deltaX) {
      var newLeft = this.left + deltaX;
      // make sure we're in the bounds
      this.left = newLeft > app.WIDTH - canvas.width ? app.WIDTH - canvas.width : newLeft < 0 ? 0 : newLeft;
      // update the horizontal cursor
      this.horizontal.cursor.left = toScrollCoords(this.left, this.horizontal);
      // show our scrollbar
      this.horizontal.visible = true;
    }
    if (deltaY) {
      var newTop = this.top + deltaY;
      this.top = newTop > app.HEIGHT - canvas.height ? app.HEIGHT - canvas.height : newTop < 0 ? 0 : newTop;
      this.vertical.cursor.top = toScrollCoords(this.top, this.vertical);
      this.vertical.visible = true;
    }
    // if we were called less than the required timeout
    clearTimeout(this.willHide);
    this.willHide = setTimeout(function() {
      scrollbars.willHide = null;
      scrollbars.hide();
      app.draw();
    }, 500);
    // redraw everything
    app.draw();
  };

  return scrollbars;
}();

var mousedown = function(e) {
  // tell the browser we handle this
  e.preventDefault();
  // we're over one the scrollbars
  if (app.scrollbars.hovered) {
    // new promotion ! it becomes the dragged one
    app.scrollbars.dragged = app.scrollbars.hovered;
    app.scrollbars.scroll();
  }
};

var mousemove = function(e) {
  // check the coordinates of our canvas in the document
  var rect = canvas.getBoundingClientRect();
  var x = e.clientX - rect.left;
  var y = e.clientY - rect.top;
  // we're dragging something
  if (app.scrollbars.dragged) {
    // update the mouse position
    app.scrollbars.mousePos = app.scrollbars.dragged.vertical ? y : x;
    app.scrollbars.scroll();
  } else if (app.scrollbars.isHover(x, y)) {
    // something has changed, redraw to show or hide the scrollbar
    app.draw();
  }
  e.preventDefault();
};
var mouseup = function() {
  // we dropped it
  app.scrollbars.dragged = null;
};

var mouseout = function() {
  // we're out
  if (app.scrollbars.visible()) {
    app.scrollbars.hide();
    app.scrollbars.dragged = false;
    app.draw();
  }
};

var mouseWheel = function(e) {
  e.preventDefault();
  app.scrollbars.scrollBy(e.deltaX, e.deltaY);
};

canvas.addEventListener('mousemove', mousemove);
canvas.addEventListener('mousedown', mousedown);
canvas.addEventListener('mouseup', mouseup);
canvas.addEventListener('mouseout', mouseout);
canvas.addEventListener('wheel', mouseWheel);

range.onchange = function() {
  app.WIDTH = app.HEIGHT = this.value;
  app.scrollbars.left = 0;
  app.scrollbars.top = 0;
  app.draw();
};

// an initial drawing
app.draw();
canvas {border: 1px solid;}
span{font-size: .8em;}
<canvas id="canvas" width="200" height="150"></canvas>
<span>
  change the total area size
  <input type="range" min="250" max="5000000" steps="250" value="5000" id="range" />
</span>

Main advantages :

  • no limitation for the size of your drawing areas.
  • you can customize your scrollbars as you wish.
  • you can control when the scrollbars are enable or not.
  • you can get the visible area quite easily.

Main caveats:

  • a bit more code than the CSS solution...
  • no really, that's a lot of code...

A third way I wrote some time ago for an other question took advantage of the ability to draw an other canvas with ctx.drawImage(). It has its own caveats and advantages, so I let you pick the one you need, but this last one also had a drag and slide feature which can be useful.

|improve this answer|||||

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.