What do you mean by "angled rectangle"? You mean a rectangle whose sides aren't perpendicular to the x- and y-directions of the image?

To use the `imagefilledrectangle()`

function you have to supply the co-ordinates of two points that define the extent of the rectangle. I would have thought that if you want to draw a rectangle that's rotated through an angle then you probably want to provide

- the width and height of the rectangle
- the centre of the rectangle (or another specified point, like a distinguished vertex of the rectangle)
- the angle through which the rectangle is to be rotated.

You mention each of these except the width and height.

Suppose I wanted to make a function `imagefilledrotatedrectangle($img, $centerX, $centerY, $width, $height, $angle, $color)`

. I would probably have it compute the 4 vertices of the rectangle, and then make a call to `imagefilledpolygon()`

passing in those 4 points. In pseudocode:

(Let's assume that my vertices are labelled 1, 2, 3 and 4, going around clockwise. I can represent them as pairs of integers, getting me integers `$x1`

, `$y1`

, `$x2`

, `$y2`

, `$x3`

, `$y3`

, `$x4`

and `$y4`

.)

```
function imagefilledrotatedrectangle( $img,
$centerX, $centerY,
$width, $height,
$angle,
$color
) {
// First calculate $x1 and $y1. You may want to apply
// round() to the results of the calculations.
$x1 = (-$width * cos($angle) / 2) + $centerX;
$y1 = (-$height * sin($angle) / 2) + $centerY;
// Then calculate $x2, $y2, $x4 and $y4 using similar formulae. (Not shown)
// To calculate $x3 and $y3, you can use similar formulae again, *or*
// if you are using round() to obtain integer points, you should probably
// calculate the vectors ($x1, $y1) -> ($x2, $y2) and ($x1, $y1) -> ($x3, $y3)
// and add them both to ($x1, $y1) (so that you do not occasionally obtain
// a wonky rectangle as a result of rounding error). (Not shown)
imagefilledpolygon( $img,
array($x1, $y1, $x2, $y2, $x3, $y3, $x4, $y4),
4,
$color
);
}
```