I try to implement a nice drag and drop on a canvas representing 3 disks.

I would like to change with mouse the position of each mass. My main problem is that I am constrained by the length of axe for each of these 3 spheres.

For the moment, I have implemented the following function when mouse is moving inside the canvas ( value of indexMass indicates which mass is moved : `1, 2 or 3`

and `t1, t2, t3`

represents respectively `the angle of mass 1, 2, 3`

) :

```
// Happens when the mouse is moving inside the canvas
function myMove(event) {
if (isDrag) {
var x = event.offsetX;
var y = event.offsetY;
if (indexMass == 1)
{ // Update theta1 value
t1 = t1 + 0.1*Math.atan(y/x);
}
else if (indexMass == 2)
{ // Update theta2 value
t2 = t2 + 0.1*Math.atan(y/x);
}
else if (indexMass == 3)
{ // Update theta3 value
t3 = t3 + 0.1*Math.atan(y/x);
}
// Update drawing
DrawPend(canvas);
}
}
```

As you can see, I did for each angle :

```
t = t + 0.1*Math.atan(y/x);
```

with :

```
var x = event.offsetX;
var y = event.offsetY;
```

But this effect is not very nice. Once the sphere is selected with mouse (on mouse click), I would like the cursor to be stucked with this sphere or the sphere to follow the "`delta`

" of the mouse coordinates when I am not on sphere anymore.

To summarize, I don't know how to create a fine and user friendly drag and drop, if someone could help me or give me some advices, this would be great.

Thanks

**UPDATE 1**

@Blindman67 : thanks for your help, your code snippet is pretty complex for me, I didn't understand it all. But I am on the right way.

I am starting by the first issue : make rotate the selected disk with mouse staying very closed to it or over it, when dragging.

For the moment, I have modified my function `myMove`

(which is called when I have clicked down and move the mouse for dragging) like :

```
// Happens when the mouse is moving inside the canvas
function myMove(event) {
// If dragging
if (isDrag) {
// Compute dx and dy before calling DrawPend
var lastX = parseInt(event.offsetX - mx);
var lastY = parseInt(event.offsetY - my);
var dx = lastX - window['x'+indexMass];
var dy = lastY - window['y'+indexMass];
// Change angle when dragging
window['t'+indexMass] = Math.atan2(dy, dx);
// Update drawing
DrawPend(canvas);
// Highlight dragging disk
fillDisk(indexMass, 'pink');
}
}
```

where `indexMass`

is the index of dragged disk and `window['x'+indexMass]`

, `window['y'+indexMass]`

are the current coordinates of the selected disk center.

After, I compute the `dx, dy`

respectively from coordinates mouse clicked when starting drag (`mx, my`

returned by `getMousePos function`

) and mouse coordinates with moving.

Finally, I change the angle of disk by set, for global variable (theta of selected disk), i.e `window['t'+indexMass]`

:

```
// Change angle when dragging
window['t'+indexMass] = Math.atan2(dy, dx);
```

I have took your part of code with `Math.atan2`

.

But the result of this function doesn't make a good animation with mouse dragging, I would like to know where this could come from.

Right now, I would like to implement only the dragging without modifying the length of axis, I will see more later for this functionality.

**UPDATE 2**

I keep going on to find a solution about the dragging of a selected mass with mouse.

For trying a synthesis of what I have done previously, I believe the following method is good but this dragging method is not working very well : **the selected disk doesn't follow correctly the mouse** and I don't know why.

In `myMove function`

(function called when I start dragging), I decided to :

- Compute the dx, dy between the mouse coordinates and the selected disk coordinates, i.e :

var dx = parseInt(event.offsetX - window['x'+indexMass]);

var dy = parseInt(event.offsetY - window['y'+indexMass]);

`indexMass`

represents the index of the selected disk.

Increment the position of selected disk (stored in temporary variables

`tmpX, tmpY`

) by`dx, dy`

.Compute the new angle

`theta`

(identified in code by global variable`window['t'+indexMass]`

Compute the new positions of selected disk with this new value of

`theta`

, i.e for example with`disk1`

(`indexMass=1`

and theta =`t1`

) :`x1= x0 +l1 * sin(t1) y1= y0 +l1 * sin(t1)`

I have to make you notice that I want dragging with mouse not to modify the lengths of axes with mouse, this is a constraint.

Here's the entire `myMove function`

(called when drag is starting) :

```
// Happens when the mouse is moving inside the canvas
function myMove(event) {
// If dragging
if (isDrag) {
console.log('offsetX', event.offsetX);
console.log('offsetY', event.offsetY);
var dx = parseInt(event.offsetX - window['x'+indexMass]);
var dy = parseInt(event.offsetY - window['y'+indexMass]);
console.log('dx', dx);
console.log('dy', dy);
// Temp variables
var tmpX = window['x'+indexMass];
var tmpY = window['y'+indexMass];
// Increment temp positions
tmpX += dx;
tmpY += dy;
// Compute new angle for indexMass
window['t'+indexMass] = Math.atan2(tmpX, tmpY);
console.log('printf', window['t'+indexMass]);
// Compute new positions of disks
dragComputePositions();
// Update drawing
DrawPend(canvas);
// Highlight dragging disk
fillDisk(indexMass, 'pink');
}
}
```

**UPDATE 4 - Bounty :**

Problem solved ! I forgot to take into account the position of "indexMass-1" disk to compute the new angle with Math.atan2 function.