62
jQuery('#carregar').click(function(){
var canvas  = document.getElementById('canvas');
var image   = document.getElementById('image');
var element = canvas.getContext("2d");
element.clearRect(0, 0, canvas.width, canvas.height);
element.drawImage(image, 0, 0, 300, 300);
});

jsfiddle.net/braziel/nWyDE/

I have a problem to rotate an image 90 ° to the right or to the left.

I use an image on the canvas, the same screen will have several canvas equal to that of the example, but I left it as close as possible to the project.

I ask, how do I rotate the image 90 ° to the left or right when I click "Rotate Left" and "Rotate Right"?

I tried several codes on the internet but none worked.

130

You can use canvas’ context.translate & context.rotate to do rotate your image

enter image description here

Here’s a function to draw an image that is rotated by the specified degrees:

function drawRotated(degrees){
    context.clearRect(0,0,canvas.width,canvas.height);

    // save the unrotated context of the canvas so we can restore it later
    // the alternative is to untranslate & unrotate after drawing
    context.save();

    // move to the center of the canvas
    context.translate(canvas.width/2,canvas.height/2);

    // rotate the canvas to the specified degrees
    context.rotate(degrees*Math.PI/180);

    // draw the image
    // since the context is rotated, the image will be rotated also
    context.drawImage(image,-image.width/2,-image.width/2);

    // we’re done with the rotating so restore the unrotated context
    context.restore();
}

Here is code and a Fiddle: http://jsfiddle.net/m1erickson/6ZsCz/

<!doctype html>
<html>
<head>
<link rel="stylesheet" type="text/css" media="all" href="css/reset.css" /> <!-- reset css -->
<script type="text/javascript" src="http://code.jquery.com/jquery.min.js"></script>

<style>
    body{ background-color: ivory; }
    canvas{border:1px solid red;}
</style>

<script>
$(function(){

    var canvas=document.getElementById("canvas");
    var ctx=canvas.getContext("2d");

    var angleInDegrees=0;

    var image=document.createElement("img");
    image.onload=function(){
        ctx.drawImage(image,canvas.width/2-image.width/2,canvas.height/2-image.width/2);
    }
    image.src="houseicon.png";

    $("#clockwise").click(function(){ 
        angleInDegrees+=30;
        drawRotated(angleInDegrees);
    });

    $("#counterclockwise").click(function(){ 
        angleInDegrees-=30;
        drawRotated(angleInDegrees);
    });

    function drawRotated(degrees){
        ctx.clearRect(0,0,canvas.width,canvas.height);
        ctx.save();
        ctx.translate(canvas.width/2,canvas.height/2);
        ctx.rotate(degrees*Math.PI/180);
        ctx.drawImage(image,-image.width/2,-image.width/2);
        ctx.restore();
    }


}); // end $(function(){});
</script>

</head>

<body>
    <canvas id="canvas" width=300 height=300></canvas><br>
    <button id="clockwise">Rotate right</button>
    <button id="counterclockwise">Rotate left</button>
</body>
</html>
  • so what about putImageData( ) ? It doesn't seem to work – TheRealChx101 Apr 11 '14 at 6:25
  • Well, putImageData would work, but it's a much more expensive operation to do the same thing--so putImageData is not called for here! ;-) – markE Apr 11 '14 at 15:01
  • 12
    This code works perfectly for square images. For rectangle images the image is cropped incorrectly (see jsfiddle.net/6ZsCz/803 ). If you change ctx.drawImage(image,-image.width/2,-image.width/2); to be ctx.drawImage(image,-image.width/2,-image.height/2) then it works for all size images. – Steve Farthing Jul 2 '14 at 16:10
  • 7
    ok. Heres an example where the canvas fits to the image and parts of the image are not lost: jsfiddle.net/6ZsCz/804 . – Steve Farthing Jul 2 '14 at 16:27
  • 2
    @markE : for the 3rd time this month you helped me out :-D – Dr. Gianluigi Zane Zanettini Jan 30 '16 at 12:05
34

Quickest 2D context image rotation method

A general purpose image rotation, position, and scale.

// no need to use save and restore between calls as it sets the transform rather 
// than multiply it like ctx.rotate ctx.translate ctx.scale and ctx.transform
// Also combining the scale and origin into the one call makes it quicker
// x,y position of image center
// scale scale of image
// rotation in radians.
function drawImage(image, x, y, scale, rotation){
    ctx.setTransform(scale, 0, 0, scale, x, y); // sets scale and origin
    ctx.rotate(rotation);
    ctx.drawImage(image, -image.width / 2, -image.height / 2);
} 

If you wish to control the rotation point use the next function

// same as above but cx and cy are the location of the point of rotation
// in image pixel coordinates
function drawImageCenter(image, x, y, cx, cy, scale, rotation){
    ctx.setTransform(scale, 0, 0, scale, x, y); // sets scale and origin
    ctx.rotate(rotation);
    ctx.drawImage(image, -cx, -cy);
} 

To reset the 2D context transform

ctx.setTransform(1,0,0,1,0,0); // which is much quicker than save and restore

Thus to rotate image to the left (anti clockwise) 90 deg

drawImage(image, canvas.width / 2, canvas.height / 2, 1, - Math.PI / 2);

Thus to rotate image to the right (clockwise) 90 deg

drawImage(image, canvas.width / 2, canvas.height / 2, 1, Math.PI / 2);

Example draw 500 images translated rotated scaled

var image = new Image;
image.src = "https://i.stack.imgur.com/C7qq2.png?s=328&g=1";
var canvas = document.createElement("canvas");
var ctx = canvas.getContext("2d");
canvas.style.position = "absolute";
canvas.style.top = "0px";
canvas.style.left = "0px";
document.body.appendChild(canvas);
var w,h;
function resize(){ w = canvas.width = innerWidth; h = canvas.height = innerHeight;}
resize();
window.addEventListener("resize",resize);
function rand(min,max){return Math.random() * (max ?(max-min) : min) + (max ? min : 0) }
function DO(count,callback){ while (count--) { callback(count) } }
const sprites = [];
DO(500,()=>{
    sprites.push({
       x : rand(w), y : rand(h),
       xr : 0, yr : 0, // actual position of sprite
       r : rand(Math.PI * 2),
       scale : rand(0.1,0.25),
       dx : rand(-2,2), dy : rand(-2,2),
       dr : rand(-0.2,0.2),
    });
});
function drawImage(image, spr){
    ctx.setTransform(spr.scale, 0, 0, spr.scale, spr.xr, spr.yr); // sets scales and origin
    ctx.rotate(spr.r);
    ctx.drawImage(image, -image.width / 2, -image.height / 2);
}
function update(){
    var ihM,iwM;
    ctx.setTransform(1,0,0,1,0,0);
    ctx.clearRect(0,0,w,h);
    if(image.complete){
      var iw = image.width;
      var ih = image.height;
      for(var i = 0; i < sprites.length; i ++){
          var spr = sprites[i];
          spr.x += spr.dx;
          spr.y += spr.dy;
          spr.r += spr.dr;
          iwM = iw * spr.scale * 2 + w;
          ihM = ih * spr.scale * 2 + h;
          spr.xr = ((spr.x % iwM) + iwM) % iwM - iw * spr.scale;
          spr.yr = ((spr.y % ihM) + ihM) % ihM - ih * spr.scale;
          drawImage(image,spr);
      }
    }    
    requestAnimationFrame(update);
}
requestAnimationFrame(update);

  • 1
    Thank you - I'm happy - How fast is my computer is !?! – T4NK3R Aug 22 '18 at 7:26
  • @Blindman67 Thanks for the great solution! Would you please kindly explain what's being done in the following lines? I suck at the math part :/ - iwM = iw * spr.scale * 2 + w; ihM = ih * spr.scale * 2 + h; spr.xr = ((spr.x % iwM) + iwM) % iwM - iw * spr.scale; spr.yr = ((spr.y % ihM) + ihM) % ihM - ih * spr.scale; – zumek Jan 12 '19 at 2:45
  • 1
    @zumek spr.xr and yr represent the rendered coordinate of the sprite. The first two lines get the width/height of image (canvas) with margins that allow sprite to move off the canvas (on all side). Next two get the position offsetting by margin size up and left. The % cycles position (like asteroids move off left appear on right) The margins ensure that you don't see the sprite disappear and then reappear on opposite side. – Blindman67 Jan 12 '19 at 3:33
26

The other solution works great for square images. Here is a solution that will work for an image of any dimension. The canvas will always fit the image rather than the other solution which may cause portions of the image to be cropped off.

var canvas;

var angleInDegrees=0;

var image=document.createElement("img");
image.onload=function(){

    drawRotated(0);
}
image.src="http://greekgear.files.wordpress.com/2011/07/bob-barker.jpg";

$("#clockwise").click(function(){ 
    angleInDegrees+=90 % 360;
    drawRotated(angleInDegrees);
});

$("#counterclockwise").click(function(){ 
    if(angleInDegrees == 0)
        angleInDegrees = 270;
    else
        angleInDegrees-=90 % 360;
    drawRotated(angleInDegrees);
});

function drawRotated(degrees){
    if(canvas) document.body.removeChild(canvas);

    canvas = document.createElement("canvas");
    var ctx=canvas.getContext("2d");
    canvas.style.width="20%";

    if(degrees == 90 || degrees == 270) {
        canvas.width = image.height;
        canvas.height = image.width;
    } else {
        canvas.width = image.width;
        canvas.height = image.height;
    }

    ctx.clearRect(0,0,canvas.width,canvas.height);
    if(degrees == 90 || degrees == 270) {
        ctx.translate(image.height/2,image.width/2);
    } else {
        ctx.translate(image.width/2,image.height/2);
   }
    ctx.rotate(degrees*Math.PI/180);
    ctx.drawImage(image,-image.width/2,-image.height/2);

    document.body.appendChild(canvas);
}

http://jsfiddle.net/6ZsCz/1588/

  • This answer solved it for me, thanks! – sebasaenz Nov 19 '19 at 18:34
5

This is the simplest code to draw a rotated and scaled image:

function drawImage(ctx, image, x, y, w, h, degrees){
  ctx.save();
  ctx.translate(x+w/2, y+h/2);
  ctx.rotate(degrees*Math.PI/180.0);
  ctx.translate(-x-w/2, -y-h/2);
  ctx.drawImage(image, x, y, w, h);
  ctx.restore();
}
3

As @markE mention in his answer

the alternative is to untranslate & unrotate after drawing

It is much faster than context save and restore.

Here is an example

// translate and rotate
this.context.translate(x,y);
this.context.rotate(radians);
this.context.translate(-x,-y);

this.context.drawImage(...);    

// untranslate and unrotate
this.context.translate(x, y);
this.context.rotate(-radians);
this.context.translate(-x,-y);
2

Here is Something I did

var ImgRotator = {
    angle:parseInt(45),
    image:{},
    src:"",
    canvasID:"",
    intervalMS:parseInt(500),
    jump:parseInt(5),
    start_action:function(canvasID, imgSrc, interval, jumgAngle){
        ImgRotator.jump = jumgAngle;
        ImgRotator.intervalMS = interval;
        ImgRotator.canvasID = canvasID;
        ImgRotator.src = imgSrc ;
        var image = new Image();
        var canvas = document.getElementById(ImgRotator.canvasID);
        image.onload = function() {
            ImgRotator.image = image;
            canvas.height = canvas.width = Math.sqrt( image.width* image.width+image.height*image.height);
            window.setInterval(ImgRotator.keepRotating,ImgRotator.intervalMS);
            //theApp.keepRotating();
        };
        image.src = ImgRotator.src;   
    },
    keepRotating:function(){
        ImgRotator.angle+=ImgRotator.jump;
        var canvas = document.getElementById(ImgRotator.canvasID);
        var ctx = canvas.getContext("2d");
        ctx.save();
        ctx.clearRect(0,0,canvas.width,canvas.height);
        ctx.translate(canvas.width/2,canvas.height/2);
        ctx.rotate(ImgRotator.angle*Math.PI/180); 
        ctx.drawImage(ImgRotator.image, -ImgRotator.image.width/2,-ImgRotator.image.height/2);
        ctx.restore();
    }
}

usage

ImgRotator.start_action("canva",
            "data:image/jpeg;base64,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",
            500,15
            );

HTML

<canvas id="canva" width="350" height="350" style="border:solid thin black;"></canvas>
1

Why not do it for the entire page. At page load detect all images and continuously rotate all of them.

 var RotationCollection = {
    rotators: [],
    start_action: function (showBorders, isoverlap) {
        try {
            var canvasTemplate = '<canvas id="_ID_" width="350" height="350"  ></canvas>';

            var ja = 5;
            $.each($("img"), function (index, val) {
                var newID = "can_" + index;
                var can = canvasTemplate.replace("_ID_", newID);

                if (showBorders == true) $(can).insertAfter($(val)).css({ "border": "solid thin black", "box-shadow": "5px 5px 10px 2px black", "border-raduis": "15px" });
                else $(can).insertAfter($(val));
                $(val).remove();

                var curRot = new RotationClass(newID, $(val).attr('src'), ja  * ((0 == index % 2) ? -1 : 1), isoverlap);
                RotationCollection.rotators[index] = curRot;
                ja += 5;
                //return false;
            });
            window.setInterval(function () {
                $.each(RotationCollection.rotators, function (index, value) {
                    value.drawRotatedImage();
                })
            }, 500);
        }
        catch (err) {
            console.log(err.message);
        }
    }
};
function RotationClass(canvasID, imgSrc, jumgAngle, overlap) {
    var self = this;
    self.overlap = overlap;
    self.angle = parseInt(45);
    self.image = {};
    self.src = imgSrc;
    self.canvasID = canvasID;
    self.jump = parseInt(jumgAngle);
    self.start_action = function () {
        var image = new Image();
        var canvas = document.getElementById(self.canvasID);
        image.onload = function () {
            self.image = image;
            canvas.height = canvas.width = Math.sqrt(image.width * image.width + image.height * image.height);
            self.drawRotatedImage(self);
        };
        image.src = self.src;
    }
    self.start_action();
    this.drawRotatedImage = function () {
        var self = this;
        self.angle += self.jump;
        var canvas = document.getElementById(self.canvasID);
        var ctx = canvas.getContext("2d");
        ctx.save();
        if (self.overlap) ctx.clearRect(0, 0, canvas.width, canvas.height);
        ctx.translate(canvas.width / 2, canvas.height / 2);
        ctx.rotate(self.angle * Math.PI / 180);
        ctx.drawImage(self.image, -self.image.width / 2, -self.image.height / 2);
        ctx.restore();
    }
}
var theApp = {
    start_Action: function () {
        RotationCollection.start_action(true, true);
    }
};
$(document).ready(theApp.start_Action);

Please check out for theApp.start_Action where all action begins The HTML can be as follows:

 <p>
    Deepika Padukone.<br />
    <img alt="deepika" src="data:image/jpeg;base64,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" />
</p>

<p>
    Priyanka Chopra.<br />
    <img alt="Priyanka" 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" />
</p>

Some options to overlap rotations, borders are also added

1

This is full degree image rotation code. I recommend you to check the below example app in the jsfiddle.

https://jsfiddle.net/casamia743/xqh48gno/

enter image description here

The process flow of this example app is

  1. load Image, calculate boundaryRad
  2. create temporary canvas
  3. move canvas context origin to joint position of the projected rect
  4. rotate canvas context with input degree amount
  5. use canvas.toDataURL method to make image blob
  6. using image blob, create new Image element and render

function init() {
  ...
  image.onload = function() {
     app.boundaryRad = Math.atan(image.width / image.height);
  }
  ...
}



/**
 * NOTE : When source rect is rotated at some rad or degrees, 
 * it's original width and height is no longer usable in the rendered page.
 * So, calculate projected rect size, that each edge are sum of the 
 * width projection and height projection of the original rect.
 */
function calcProjectedRectSizeOfRotatedRect(size, rad) {
  const { width, height } = size;

  const rectProjectedWidth = Math.abs(width * Math.cos(rad)) + Math.abs(height * Math.sin(rad));
  const rectProjectedHeight = Math.abs(width * Math.sin(rad)) + Math.abs(height * Math.cos(rad));

  return { width: rectProjectedWidth, height: rectProjectedHeight };
}

/**
 * @callback rotatedImageCallback
 * @param {DOMString} dataURL - return value of canvas.toDataURL()
 */

/**
 * @param {HTMLImageElement} image 
 * @param {object} angle
 * @property {number} angle.degree 
 * @property {number} angle.rad
 * @param {rotatedImageCallback} cb
 * 
 */
function getRotatedImage(image, angle, cb) {
  const canvas = document.createElement('canvas');
  const { degree, rad: _rad } = angle;

  const rad = _rad || degree * Math.PI / 180 || 0;
  debug('rad', rad);

  const { width, height } = calcProjectedRectSizeOfRotatedRect(
    { width: image.width, height: image.height }, rad
  );
  debug('image size', image.width, image.height);
  debug('projected size', width, height);

  canvas.width = Math.ceil(width);
  canvas.height = Math.ceil(height);

  const ctx = canvas.getContext('2d');
  ctx.save();

  const sin_Height = image.height * Math.abs(Math.sin(rad))
  const cos_Height = image.height * Math.abs(Math.cos(rad))
  const cos_Width = image.width * Math.abs(Math.cos(rad))
  const sin_Width = image.width * Math.abs(Math.sin(rad))

  debug('sin_Height, cos_Width', sin_Height, cos_Width);
  debug('cos_Height, sin_Width', cos_Height, sin_Width);

  let xOrigin, yOrigin;

  if (rad < app.boundaryRad) {
    debug('case1');
    xOrigin = Math.min(sin_Height, cos_Width);
    yOrigin = 0;
  } else if (rad < Math.PI / 2) {
    debug('case2');
    xOrigin = Math.max(sin_Height, cos_Width);
    yOrigin = 0;
  } else if (rad < Math.PI / 2 + app.boundaryRad) {
    debug('case3');
    xOrigin = width;
    yOrigin = Math.min(cos_Height, sin_Width);
  } else if (rad < Math.PI) {
    debug('case4');
    xOrigin = width;
    yOrigin = Math.max(cos_Height, sin_Width);
  } else if (rad < Math.PI + app.boundaryRad) {
    debug('case5');
    xOrigin = Math.max(sin_Height, cos_Width);
    yOrigin = height;
  } else if (rad < Math.PI / 2 * 3) {
    debug('case6');
    xOrigin = Math.min(sin_Height, cos_Width);
    yOrigin = height;
  } else if (rad < Math.PI / 2 * 3 + app.boundaryRad) {
    debug('case7');
    xOrigin = 0;
    yOrigin = Math.max(cos_Height, sin_Width);
  } else if (rad < Math.PI * 2) {
    debug('case8');
    xOrigin = 0;
    yOrigin = Math.min(cos_Height, sin_Width);
  }

  debug('xOrigin, yOrigin', xOrigin, yOrigin)

  ctx.translate(xOrigin, yOrigin)
  ctx.rotate(rad);
  ctx.drawImage(image, 0, 0);
  if (DEBUG) drawMarker(ctx, 'red');

  ctx.restore();

  const dataURL = canvas.toDataURL('image/jpg');

  cb(dataURL);
}

function render() {
    getRotatedImage(app.image, {degree: app.degree}, renderResultImage)
}

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