This is probably just maths.
I am using Konva to dynamically generate shapes, which I'm storing as a label. So there's a label which contains a textElement and a rectangle. I want to make sure text in that rectangle is always a) Centered horizontally and vertically and b) facing the right way up.
So a rectangle could have any rotation, but I always want the text centered and facing the right way up.
The code for creation; width, height, rotation, x and y all have values pulled from a database.
var table = new Konva.Label({
x: pos_x,
y: pos_y,
width: tableWidth,
height: tableHeight,
draggable:true
});
table.add(new Konva.Rect({
width: tableWidth,
height: tableHeight,
rotation: rotation,
fill: fillColor,
stroke: strokeColor,
strokeWidth: 4
}));
table.add(new Konva.Text({
width: tableWidth,
height: tableHeight,
x: pos_x, //Defaults to zero
y: pos_y, //Default to zero
text: tableNumber,
verticalAlign: 'middle',
align: 'center',
fontSize: 30,
fontFamily: 'Calibri',
fill: 'black'
}))
tableLayer.add(table);
The problem is, if rotation is in place, text is off center, as in this image:
I do manually correct in some circumstances - for example if rotation = 45 degrees:
pos_x = -tableWidth/2;
pos_y = tableHeight/5;
but that is not a permanent solution. I want the x and y co-ordinates of the text to be at the centerpoint of the shape itself.
I've tried a few approaches (such as applying rotation to the Label itself and then negative rotation value to the text)
This code snippet illustrates a solution. It is copied & modified from my other self-answer when I was looking for a robust approach to rotation around an arbitrary point - note that I consider this a slightly different question than my original so I have not suggested this is a dup. The difference is the need to work with a more complex grouped shape and to keep some element within that group unrotated.
Not in the OP's question, but I set a background rectangle into the text by making the text a group. The purpose of this was to show that the text rectangle will extend outside the label rectangle in some points of rotation. This is not a critical issue but it is useful to see it happen.
The fundamental challenge for the coder is to understand how the shapes move when rotated since we usually want to spin them around their centre but the fundamental 2D canvas pattern that Konva (and all HTML5 canvas wrappers) follow is to rotate from the top-left corner, al least for rectangles as per shapes in the question. It 'is' possible to move the rotation point (known as the offset) but again that is a conceptual challenge for the dev and a nice trap for anyone trying to support the code later.
There's a lot of code in this answer that is here to set up something dynamic that you can use to visualise what is going on. However, the crux is in this:
// This is the important call ! Cross is the rotation point as illustrated by crosshairs.
rotateAroundPoint(shape, rotateBy, {x: cross.x(), y: cross.y()});
// The label is a special case because we need to keep the text unrotated.
if (shape.name() === 'label'){
let text = shape.find('.text')[0];
rotateAroundPoint(text, -1 * rotateBy, {x: text.getClientRect().width/2, y: text.getClientRect().height/2});
}
The rotateAroundPoint() function takes as parameters the Konva shape to rotate, the clockwise rotation angle (not radians, good ole degrees), and the x & y position of the rotation point on the canvas / parent.
I constructed a group of shapes as my label, composing it from a rectangle and a text shape. I named this 'label'. Actually I switched the text shape to be another group of rect + text to that I could show the rectangle the text sits within. You could leave out the extra group. I named this 'text'.
The first call to rotateAroundPoint() rotates the group named 'label'. So the group rotates on the canvas. Since the 'text' is a child of the 'label' group, that would leave the 'text' rotated, so the next line checks if we are working with the 'label' group, and if so we need to get hold of the 'text' shape which is what this line does:
let text = shape.find('.text')[0];
In Konva the result of a find() is a list so we take the first in the list. Now all that remains for me to do is rotate the text on the 'label' group back again by applying the negative rotation degrees to its center point. The line below achieves this.
rotateAroundPoint(text, -1 * rotateBy, {x: text.getClientRect().width/2, y: text.getClientRect().height/2});
One note worthy of mention - I used a group for my 'text' shape. A Konva group does not naturally have a width or height - it is more of a means to collect shapes together but without a 'physical' container. So to get its width and height for the centre point calculations I use the group.getClientRect() method which gives the size of the minimum bounding box that would contain all shapes in the group, and yields an object formed as {width: , height: }.
Second note - the first use of rotateAroundPoint() affects the 'label' group which has as its parent the canvas. The second use of that function affects the 'text' group which has the 'label' group as its parent. Its subtle but worth knowing.
Here is the snippet. I urge you to run it fullscreen and spin a few shapes around a few different points.
// Code to illustrate rotation of a shape around any given point. The important functions here is rotateAroundPoint() which does the rotation and movement math !
let
angle = 0, // display value of angle
startPos = {x: 80, y: 45},
shapes = [], // array of shape ghosts / tails
rotateBy = 20, // per-step angle of rotation
shapeName = $('#shapeName').val(), // what shape are we drawing
shape = null,
ghostLimit = 10,
// Set up a stage
stage = new Konva.Stage({
container: 'container',
width: window.innerWidth,
height: window.innerHeight
}),
// add a layer to draw on
layer = new Konva.Layer(),
// create the rotation target point cross-hair marker
lineV = new Konva.Line({points: [0, -20, 0, 20], stroke: 'lime', strokeWidth: 1}),
lineH = new Konva.Line({points: [-20, 0, 20, 0], stroke: 'lime', strokeWidth: 1}),
circle = new Konva.Circle({x: 0, y: 0, radius: 10, fill: 'transparent', stroke: 'lime', strokeWidth: 1}),
cross = new Konva.Group({draggable: true, x: startPos.x, y: startPos.y}),
labelRect, labelText;
// Add the elements to the cross-hair group
cross.add(lineV, lineH, circle);
layer.add(cross);
// Add the layer to the stage
stage.add(layer);
$('#shapeName').on('change', function(){
shapeName = $('#shapeName').val();
shape.destroy();
shape = null;
reset();
})
// Draw whatever shape the user selected
function drawShape(){
// Add a shape to rotate
if (shape !== null){
shape.destroy();
}
switch (shapeName){
case "rectangle":
shape = new Konva.Rect({x: startPos.x, y: startPos.y, width: 120, height: 80, fill: 'magenta', stroke: 'black', strokeWidth: 4});
break;
case "hexagon":
shape = new Konva.RegularPolygon({x: startPos.x, y: startPos.y, sides: 6, radius: 40, fill: 'magenta', stroke: 'black', strokeWidth: 4});
break;
case "ellipse":
shape = new Konva.Ellipse({x: startPos.x, y: startPos.y, radiusX: 40, radiusY: 20, fill: 'magenta', stroke: 'black', strokeWidth: 4});
break;
case "circle":
shape = new Konva.Ellipse({x: startPos.x, y: startPos.y, radiusX: 40, radiusY: 40, fill: 'magenta', stroke: 'black', strokeWidth: 4});
break;
case "star":
shape = new Konva.Star({x: startPos.x, y: startPos.y, numPoints: 5, innerRadius: 20, outerRadius: 40, fill: 'magenta', stroke: 'black', strokeWidth: 4});
break;
case "label":
shape = new Konva.Group({name: 'label'});
labelRect = new Konva.Rect({x: 0, y: 0, width: 120, height: 80, fill: 'magenta', stroke: 'black', strokeWidth: 4, name: 'rect'})
shape.add(labelRect);
labelText = new Konva.Group({name: 'text'});
labelText.add(new Konva.Rect({x: 0, y: 0, width: 100, height: 40, fill: 'cyan', stroke: 'black', strokeWidth: 2}))
labelText.add(new Konva.Text({x: 0, y: 0, width: 100, height: 40, text: 'Wombat',fontSize: 20, fontFamily: 'Calibri', align: 'center', padding: 10}))
shape.add(labelText)
labelText.position({x: (labelRect.width() - labelText.getClientRect().width) /2, y: (labelRect.height() - labelText.getClientRect().height) /2})
break;
};
layer.add(shape);
cross.moveToTop();
}
// Reset the shape position etc.
function reset(){
drawShape(); // draw the current shape
// Set to starting position, etc.
shape.position(startPos)
cross.position(startPos);
angle = 0;
$('#angle').html(angle);
$('#position').html('(' + shape.x() + ', ' + shape.y() + ')');
clearTails(); // clear the tail shapes
stage.draw(); // refresh / draw the stage.
}
// Click the stage to move the rotation point
stage.on('click', function (e) {
cross.position(stage.getPointerPosition());
stage.draw();
});
// Rotate a shape around any point.
// shape is a Konva shape
// angleRadians is the angle to rotate by, in radians
// point is an object {x: posX, y: posY}
function rotateAroundPoint(shape, angleDegrees, point) {
let angleRadians = angleDegrees * Math.PI / 180; // sin + cos require radians
const x =
point.x +
(shape.x() - point.x) * Math.cos(angleRadians) -
(shape.y() - point.y) * Math.sin(angleRadians);
const y =
point.y +
(shape.x() - point.x) * Math.sin(angleRadians) +
(shape.y() - point.y) * Math.cos(angleRadians);
shape.rotation(shape.rotation() + angleDegrees); // rotate the shape in place
shape.x(x); // move the rotated shape in relation to the rotation point.
shape.y(y);
shape.moveToTop(); //
}
$('#rotate').on('click', function(){
let newShape = shape.clone();
shapes.push(newShape);
layer.add(newShape);
// This ghost / tails stuff is just for fun.
if (shapes.length >= ghostLimit){
shapes[0].destroy();
shapes = shapes.slice(1);
}
for (var i = shapes.length - 1; i >= 0; i--){
shapes[i].opacity((i + 1) * (1/(shapes.length + 2)))
};
// This is the important call ! Cross is the rotation point as illustrated by crosshairs.
rotateAroundPoint(shape, rotateBy, {x: cross.x(), y: cross.y()});
// The label is a special case because we need to keep the text unrotated.
if (shape.name() === 'label'){
let text = shape.find('.text')[0];
rotateAroundPoint(text, -1 * rotateBy, {x: text.getClientRect().width/2, y: text.getClientRect().height/2});
}
cross.moveToTop();
stage.draw();
angle = angle + 10;
$('#angle').html(angle);
$('#position').html('(' + Math.round(shape.x() * 10) / 10 + ', ' + Math.round(shape.y() * 10) / 10 + ')');
})
// Function to clear the ghost / tail shapes
function clearTails(){
for (var i = shapes.length - 1; i >= 0; i--){
shapes[i].destroy();
};
shapes = [];
}
// User cicks the reset button.
$('#reset').on('click', function(){
reset();
})
// Force first draw!
reset();
body {
margin: 10;
padding: 10;
overflow: hidden;
background-color: #f0f0f0;
}
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery/3.3.1/jquery.min.js"></script>
<script src="https://unpkg.com/konva#^3/konva.min.js"></script>
<p>1. Click the rotate button to see what happens when rotating around shape origin.</p>
<p>2. Reset then click stage to move rotation point and click rotate button again - rinse & repeat</p>
<p>
<button id = 'rotate'>Rotate</button>
<button id = 'reset'>Reset</button>
<select id='shapeName'>
<option value='label' selected='selected'>Label</option>
<option value='rectangle'>Rectangle</option>
<option value='hexagon'>Polygon</option>
<option value='ellipse' >Ellipse</option>
<option value='circle' >Circle</option>
<option value='star'>Star</option>
</select>
Angle : <span id='angle'>0</span>
Position : <span id='position'></span>
</p>
<div id="container"></div>
How to get The center point of the canvas object/rectangle. I use the Konvajs library for my small project. in the konva documentation said that you need to center the point to get good rotation.
http://konvajs.github.io/docs/animations/Rotation.html
Ex
var yellowRect = new Konva.Rect({
x: 220,
y: 75,
width: 100,
height: 50,
fill: 'yellow',
stroke: 'black',
strokeWidth: 4,
offset: {
x: 50 // how to solve this using formula so it will dynamic,
y: 25 // how to solve this using formula so it will dynamic
}
});
Rotating rectangular objects around their centers
By default, KonvaJS sets the rotation point of a rectangle at its top-left corner. Therefore to rotate from the center of the rectangle you must push the rotation point to the center of the rectangle.
You can do this by setting the offsetX=rectangleWidth/2 and offsetY=rectangleHeight/2
var yellowRectWidth=100;
var yellowRectHeight=50;
var yellowRect = new Konva.Rect({
x: 220,
y: 75,
width: yellowRectWidth,
height: yellowRectHeight,
fill: 'yellow',
stroke: 'black',
strokeWidth: 4,
offset: {
x: yellowRectWidth/2,
y: yellowRectHeight/2
}
});
Rotating circular objects around their centers
By default, KonvaJS sets the rotation point of circular shapes at their centerpoints. Therefore to rotate from the center of circular shapes you won't have to set any offsets.
I have a canvas drawn in Fabric.js that i am adding a group of rectangles to, i want to limit the edges of those rectangles as a group to not go outside a certain area.
Imagine making a stripy t-shirt, the stripes are make by using a series of rectangles and i need to keep them to the shape of the t-shirt.
I think its better to clip the entire canvas to the shape of the t shirt, so anything i add to it remains within the t-shirt but i am stuck. So far i am only clip to basic circles and rectangles.
Thanks
You can just render a shape inside canvas.clipTo :)
I just loaded a random SVG shape in kitchensink and did this:
var shape = canvas.item(0);
canvas.remove(shape);
canvas.clipTo = function(ctx) {
shape.render(ctx);
};
As you can see, entire canvas is now clipped by that SVG shape.
You may also try this one: http://jsfiddle.net/ZxYCP/198/
var clipPoly = new fabric.Polygon([
{ x: 180, y: 10 },
{ x: 300, y: 50 },
{ x: 300, y: 180 },
{ x: 180, y: 220 }
], {
originX: 'left',
originY: 'top',
left: 180,
top: 10,
width: 200,
height: 200,
fill: '#DDD', /* use transparent for no fill */
strokeWidth: 0,
selectable: false
});
You can simply use Polygon to clip. Answer is based on #natchiketa idea in this question Multiple clipping areas on Fabric.js canvas
I've been trying to put scrollbars into my KineticJS app following the tutorial Kinetic have on the API. I have the scrollbars themselves appearing as they should, but I'm not sure what to do with the event listeners to actually get the stage or each of the layers to move so that the scrollbars actually move the view along.
var hscrollArea = new Kinetic.Rect({
x: 10,
y: $(window).height() - 30 - 80, // 80 to account for the fixed footer
width: $(window).width() - 40,
height: 20,
fill: "gray",
opacity: 0.3
});
var hscroll = new Kinetic.Rect({
x: 10,
y: $(window).height() - 30 - 80,// 80 to account for the fixed footer
width: 130,
height: 20,
fill: "orange",
draggable: true,
dragBoundFunc: function(pos) {
// TODO: Move stage or layers at this point
console.log("dragBoundFunc: " + this);
return {
x: pos.x,
y: this.getAbsolutePostion().y
};
},
opacity: 0.9,
stroke: "black",
strokeWidth: 1
});
var vscrollArea = new Kinetic.Rect({
x: $(window).width() - 30,
y: 10,
width: 20,
height: $(window).height() - 40 - 80,
fill: "gray",
opacity: 0.3
});
var vscroll = new Kinetic.Rect({
x: $(window).width() - 30,
y: 10,
width: 20,
height: 70,
fill: "orange",
draggable: true,
dragBoundFunc: function(pos) {
// TODO: Move stage or layers at this point
console.log("dragBoundFunc: " + this);
return {
x: this.getAbsolutePosition().x,
y: pos.y
};
},
opacity: 0.9,
stroke: "black",
strokeWidth: 1
});
Any help would be greatly appreciated :)
Thanks,
Becky
You can move stage or layer when your scrollbar(rectangle) is dragged. i.e,
stage.move(50,50);
stage.draw();
stage.move(-50,-50);
stage.draw();
I would recommend placing the objects you wish to scroll into their own group and position the group accordingly, rather than trying to position layers or the stage. The size of the group would be the (axis-aligned) bounding box of all the objects within the group. You can use the size of the group and compare it against the size of the stage to get a ratio for width and height. These ratios would be used to help calculate sizes for horizontal and vertical scroll bars (the bars being what get dragged to create a scroll effect). The ratio would also be used to determine when to show and hide the scroll bar areas. The difference in sizes would help in determining how to position the group within the stage.
I found this code to type on an arc in a Canvas element. I've modified it basically to what I need, but I'm not sure how to change the "starting point" of it?
I've got a demo here
circle = {
x: cnv.width / 2, // x coordinate of center
y: cnv.height / 2, // y coordinate of center
r: 150,
lw: 75
};
for example, giving as given below will plot it at the origin of the canvas
circle = {
x: 0, // x coordinate of center
y: 0, // y coordinate of center
r: 150,
lw: 75
};