Although I think the existing answer is good for a circle, it sounds like you wanted more of a “rounded rectangle” instead. Here is how I have done that:

```
[1]format=yuva420p,geq=lum='p(X,Y)':a='if(gt(abs(W/2-X),W/2-10)*gt(abs(H/2-Y),H/2-10),if(lte(hypot(10-(W/2-abs(W/2-X)),10-(H/2-abs(H/2-Y))),10),255,0),255)'[rounded];
```

About `format`

:

The alpha values can’t be changed in a source that doesn’t have an existing alpha channel. So the `format=yuva420p`

filter adds one (that is the `a`

in `yuva`

). From what I have seen, `yuva444p`

is also common (used in other answers), but other formats like `rgba`

ought to work, provided they have an alpha channel. My original source was `yuv420p`

so I made mine `yuva420p`

.

About `geq`

:

It seems you can’t change *only* the alpha channel (if you try, you’ll get an error “A luminance or RGB expression is mandatory”), so the `lum='p(X,Y)'`

is basically a dummy no-op to allow you to change the alpha without changing anything else.

So that it’s not necessary to check each corner individually, X and Y are converted into the upper left quadrant by the formula:

```
X' = W/2-abs(W/2-X)
Y' = H/2-abs(H/2-Y)
```

The first part of the formula checks whether `X'`

and `Y'`

are within the thatched area:

That is, whether:

```
X' < 10
and Y' < 10
```

If they are not, `a`

is set to `255`

(ie, show the pixel).

If they fall within this area, the distance is calculated between the point `(X,Y)`

and the centre of the circle at `(10,10)`

. If the point `(X,Y)`

falls within the circle, `a`

is set to `255`

; otherwise, `a`

is set to `0`

, and that pixel is hidden.

The radius can be changed to give more or less ‘rounding’. A full example command with a radius of `20`

is:

```
ffmpeg -f lavfi -i color=darkblue:size=800x600 -f lavfi -i color=gray:size=600x450 -frames:v 180 -filter_complex "[1]format=yuva420p,geq=lum='p(X,Y)':a='if(gt(abs(W/2-X),W/2-20)*gt(abs(H/2-Y),H/2-20),if(lte(hypot(20-(W/2-abs(W/2-X)),20-(H/2-abs(H/2-Y))),20),255,0),255)'[rounded];[0][rounded]overlay=x=(W-w)/2:y=(H-h)/2" example.mp4
```

Giving the result:

In my examples I have used `10`

or `20`

as the radius of the circle, but you can change this to any number to make the corners more or less rounded as you like.