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I want to draw an arrow using the canvas tag, javascript. I've made it using the quadratic function, but I'm having problems to calculate the angle of rotation of the arrow...

Anyone have a clue on this?

Thank you

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6 Answers 6

As simple as I can get it. You'll have to prepend context.beginPath() and append context.stroke() yourself:

function canvas_arrow(context, fromx, fromy, tox, toy){
    var headlen = 10;   // length of head in pixels
    var angle = Math.atan2(toy-fromy,tox-fromx);
    context.moveTo(fromx, fromy);
    context.lineTo(tox, toy);
    context.lineTo(tox-headlen*Math.cos(angle-Math.PI/6),toy-headlen*Math.sin(angle-Math.PI/6));
    context.moveTo(tox, toy);
    context.lineTo(tox-headlen*Math.cos(angle+Math.PI/6),toy-headlen*Math.sin(angle+Math.PI/6));
}

Here's a sample: http://stuff.titus-c.ch/arrow.html

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1  
That produces an odd shape, you want to get rid of that last move and add at the end lineTo(tox,toy) –  owook Jan 17 '12 at 15:08
1  
function doesnt work well when lineWidth is not == 1 –  Prosto Trader Nov 15 '13 at 14:26
    
works fine with 2 :P +1 –  Flash Thunder Mar 6 at 21:46
    
For larger line widths, just add context.moveTo(tox, toy); after context.lineTo(tox, toy); (see: i.imgur.com/jMOsLM9.png) –  danharper Aug 12 at 12:54
    
@danharper is the image a canvas arrow? looks rounded, if so how do you do that? –  raklos Aug 28 at 16:04

You can do:

ctx.save();
ctx.translate(xOrigin, yOrigin);
ctx.rotate(angle);
 // draw your arrow, with its origin at [0, 0]
ctx.restore();
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You can push your matrix, rotate it, draw your arrow and then pop the matrix.

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Given a size and the starting position, following code will draw the arrow for you.

<!DOCTYPE HTML> 
<html> 
    <head> 
        <style> 
            body { 
                margin: 0px; 
                padding: 0px; 
            } 

            #myCanvas { 
                border: 1px solid #9C9898; 
            } 
        </style> 
        <script> 
            function draw_arrow(context, startX, startY, size) 
            { 
                var arrowX = startX + 0.75*size; 
                var arrowTopY = startY - 0.707*(0.25*size);  
                var arrowBottomY = startY + 0.707*(0.25*size); 
                context.moveTo(startX, startY); 
                context.lineTo(startX+size, startX); 
                context.lineTo(arrowX, arrowTopY); 
                context.moveTo(startX+size, startX); 
                context.lineTo(arrowX, arrowBottomY); 
                context.stroke(); 
            } 
            window.onload = function(){ 
                var canvas = document.getElementById("myCanvas"); 
                var context = canvas.getContext("2d"); 
                var startX = 50;  
                var startY = 50;  
                var size   = 100; 
                context.lineWidth = 2; 
                draw_arrow(context, startX, startY, size); 
            }; 
        </script> 
    </head> 
    <body onmousedown="return false;"> 
        <canvas id="myCanvas" width="578" height="200"> 
        </canvas> 

    </body> 
</html> 
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function RTEShape()
{   
    this.x = 50;
  this.y = 50;
  this.w = 100; // default width and height?
  this.h = 100;
  this.fill = '#444444';
  this.text = "Test String";
  this.type;
  this.color;
  this.size = 6;    

    // The selection color and width. Right now we have a red selection with a small width
    this.mySelColor = '#CC0000';
    this.mySelWidth = 2;
    this.mySelBoxColor = 'darkred';// New for selection boxes
    this.mySelBoxSize = 6;
}

RTEShape.prototype.buildArrow = function(canvas)
{
    this.type = "arrow";

  // Make sure we don't execute when canvas isn't supported
  if (canvas.getContext){

    // use getContext to use the canvas for drawing
    var ctx = canvas.getContext('2d');           

    var oneThirdX = this.x + (this.w/3);             
    var twoThirdX = this.x + ((this.w*2)/3);

    var oneFifthY = this.y - (this.y/5);    
    var twoFifthY = this.y - ((this.y*3)/5);

    /**/
    //ctx.beginPath();
    ctx.moveTo(oneThirdX,this.y); // 125,125
    ctx.lineTo(oneThirdX,oneFifthY); // 125,105

    ctx.lineTo(this.x*2,oneFifthY); // 225,105      
    ctx.lineTo(this.x*2,twoFifthY); // 225,65

    ctx.lineTo(oneThirdX,twoFifthY); // 125,65      
    ctx.lineTo(oneThirdX,(this.y/5)); // 125,45

    ctx.lineTo(this.x,(this.y+(this.y/5))/2); // 45,85

        ctx.fillStyle = "green";
    ctx.fill();

    ctx.fillStyle = "yellow";
    ctx.fillRect(this.x,this.y,this.w,this.h);

  } else {
    alert('Error on buildArrow!\n'+err.description);
  }
}
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Ok, so the first answer on this page helped me greatly when I was trying to figure this problem out myself, although as someone else already stated, if you have a line width greater than 1px you get funny shapes. The fix that someone else suggested almost worked, but I still had some issues when trying to go for a thicker width arrow. After several hours of playing around with it I was able to combine the above solution with some of my own tinkering to come up with the following code that will draw an arrow at whatever thickness you desire without distorting the arrow shape.

function drawArrow(fromx, fromy, tox, toy){
                //variables to be used when creating the arrow
                var c = document.getElementById("myCanvas");
                var ctx = c.getContext("2d");
                var headlen = 10;

                var angle = Math.atan2(toy-fromy,tox-fromx);

                //starting path of the arrow from the start square to the end square and drawing the stroke
                ctx.beginPath();
                ctx.moveTo(fromx, fromy);
                ctx.lineTo(tox, toy);
                ctx.strokeStyle = "#cc0000";
                ctx.lineWidth = 22;
                ctx.stroke();

                //starting a new path from the head of the arrow to one of the sides of the point
                ctx.beginPath();
                ctx.moveTo(tox, toy);
                ctx.lineTo(tox-headlen*Math.cos(angle-Math.PI/7),toy-headlen*Math.sin(angle-Math.PI/7));

                //path from the side point of the arrow, to the other side point
                ctx.lineTo(tox-headlen*Math.cos(angle+Math.PI/7),toy-headlen*Math.sin(angle+Math.PI/7));

                //path from the side point back to the tip of the arrow, and then again to the opposite side point
                ctx.lineTo(tox, toy);
                ctx.lineTo(tox-headlen*Math.cos(angle-Math.PI/7),toy-headlen*Math.sin(angle-Math.PI/7));

                //draws the paths created above
                ctx.strokeStyle = "#cc0000";
                ctx.lineWidth = 22;
                ctx.stroke();
                ctx.fillStyle = "#cc0000";
                ctx.fill();
            }

This is now the code that I am using in my program. What I found to be the key with eliminating the distortion issue was continuing the stroke from the tip of the arrow to one side point, to the other side point, back to the tip, and back over to the first side point, then doing a fill. This corrected the shape of the arrow.

Hope this helps!

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