You have to subdivide the rectangle if four sectors, then determine in which sector your line lies. One way to do that is checking the angle value with 90°, 180° and 270° using plain if statements.

Once you have the angle's sector, you have to compare the line's angle against the rectangle's diagonal angle, so you could determine the edge your line is colliding with.

Once you've determined the collision edge you get one of the collision coordinates for free (left-x, right-x, top-y or lower-y), the another coordinate can be obtained using trigonometry (the tangent relation).

You'll end up with two basic cases in every sector, one takes the opposite leg for the right triangle that forms for the collision with one of the vertical edges and the other takes the adjacent leg. Here is an example for the first sector (the upper right quadrant)

```
if (lineAngle < rectDiagAngle) {
// For this collision you have the x coordinate, is the same as the
// right edge x coordinate
colX = rectX + rectW;
// Now you need to find the y coordinate for the collision, to do that
// you just need the opposite leg
oppositeLegLength = Math.tan(lineAngle) * (rectW / 2);
colY = rectCenterY - oppositeLegLength;
} else {
// The line collides with the top edge
// For this collision you have the y coordinate, is the same as the
// top edge y coordinate
colY = rectY;
// Now you need to find the x coordinate for the collision, to do
// that you just need the adjacent leg
adjacentLegLength = (rectH / 2) / Math.tan(lineAngle);
colX = rectCenterX + adjacentLegLength;
}
```

**This fiddle** takes the angle, calculates the collision point and then draws a line from the rectangle center to the collision point.

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