First of all I apologize if I commit mistakes writing but english is not my first language, spanish is actually!

I faced this problem, and I think I found an efficient solution.

First of all let's see an image of the situation

So we have an ellipse (actually a circle) and two points (`C`

, `D`

) which indicates our sector.
We also have the center of our circle (`B`

) and the angle of the Arc `alpha`

.

Now, in this case I made it passing through `360º`

on porpouse to see if it would work.

Let's say `alpha -> -251.1º`

(it negative cause its clockwise), lets transform it to positive value `360º - 251.1º = 108.9º`

now our goal is to find the angle of the bisection of that angle so we can find the max point for the bounding box (`E`

in the image), actually as you may have realized, the length of the segment `BE`

equals the radius of the circle but we must have the angle to obtain the actual coordinates of the `E`

point.

So `108.9º / 2 -> 54.45º`

now we have the angle.

To find the coordinates of E we use polar coordinates so

```
x = r * Cos(theta)
y = r * Sin(theta)
```

we have `r`

and `theta`

so we can calculate x and y

in my example `r = 2.82`

… (actually it's irational but I took the first two decimal digits as a matter of ease)

We know our first radii is `87.1º`

so theta would be `87.1 - 54.45º -> 32.65º`

we know *theta * is `32.65º`

so let's do some math

```
x = 2.82 * Cos(32.65º) -> 2.37552
y = 2.82 * Sin(32.65º) -> 1.52213
```

Now we need to adjust these values to the actual center of the circle so

```
x = x + centerX
y = y + centerY
```

In the example, the circle is centered at `(1.86, 4.24)`

```
x -> 4.23552
y -> 5.76213
```

At this stage we should use some calculus. We know that one of the edges of the bounding box will be a tangent of the arc that passes through the point we just calculated so, lets find that tangent (the red line).

We know that the tangent passes through our point `(4.23, 5.76)`

now we need a slope.

As you can see, the slope is the same as the slope of the rect that passes through our radii's so we have to find that slope.

For doing that we need to get the coordinates of our radii's (a fast conversion to cartessian coordinates from polar coordinates).

```
x = r * Cos(theta)
y = r * Sin(theta)
```

So

```
p0 = (centerX + 2.82 * Cos(87.1º), centerY + 2.82 * Sin(87.1º))
p1 = (centerX + 2.82 * Cos(-21.8º), centerY + 2.82 * Sin(-21.8º))
```

(`21.8º`

is the angle measured clockwise from the horizontal axis to the radii that is below it and thus I put it negative)

```
p0 (2, 7.06)
p1 (4.48, 3.19)
```

now let's find the slope:

```
m = (y - y0) / (x - x0)
...
m = (3.19 - 7.06) / (4.48-2) = -3.87 / 2.48 = -1.56048
...
m = -1.56
```

having the slope we need to calculate the equation for the tangent, basically is a rect with an already known slope (`m = -1.56`

) that passes through an already know point (`E -> (4.23, 5.76)`

)

So we have `Y = mx + b`

where `m = -1.56`

, `y = 5.76`

and `x = 4.23`

so `b`

must be

```
b = 5.76 - (-1.56) * 4.23 = 12.36
```

Now we have the complete equation for our tangent -> `Y = -1.56X + 12.36`

All we must do know is project the points `C`

and `D`

over that rect.

We need the equations for the rects `CH`

and `DI`

so let's calculate 'em

Let's start with `CH`

:

We know (from the tanget's equation) that our direction vector is `(1.56, 1)`

We need to find a rect that passes through the point `C -> (2, 7.06)`

```
(x - 2) / 1.56 = (y - 7.06) / 1
```

Doing some algebra -> `y = 0.64x + 5.78`

We know have the equation for the rect `CH`

we must calculate the point `H`

.

we have to solve a linear system as follows

```
y = -1.56x + 12.36
y = 1.56x + 5.78
```

Solving this we'll find the point `H (3, 7.69)`

We need to do the same with the rect `DI`

so let's do it

Our direction vector is `(1.56, 1)`

once again

```
D -> (4.48, 3.19)
(x - 4.48) / 1.56 = (y -3.19) / 1
```

Doing some algebra -> `y = 0.64x + 0.32`

Lets solve the linear system

```
y = -1.56x + 12.36
y = 0.64x + 0.32
I (5.47, 3.82)
```

At this stage we already have the four points that make our Bounding box -> `C, H, D , I`

Just in case you don't know or rememeber how to solve a linear system on a programming language, i'll give you a little example

It's pure algebra

Let's say we have the following system

```
Ax + By = C
Dx + Ey = F
```

then

```
Dx = F - Ey
x = (F - Ey) / D
x = F/D - (E/D)y
```

replacing on the other equation

```
A(F/D - (E/D)y) + By = C
AF/D - (AE/D)y + By = C
(AE/D)y + By = C - AF/D
y(-AE/D + B) = C - AF/D
y = (C - AF/D) / (-AE/D + B)
= ( (CD - AF) / D ) / ( (-AE + BD) / D) )
```

so

```
y = (CD - AF) / (BD - AE)
```

and for `x`

we do the same

```
Dx = F - Ey
Dx - F = -Ey
Ey = F - Dx
y = F/E - (D/E)x
```

replacing on the other equation

```
Ax + B(F/E - (D/E)x) = C
Ax + (BF/E - (DB/E)x) = C
Ax - (DB/E)x = C - BF/E
x (A-(DB/E)) = C - BF/E
x = (C - BF/E)/(A-(DB/E))
= ((CE - BF) / E) / ((AE-DB) / E)
x = (CE - BF) / (AE - DB)
```

I apologize for the extent of my answer but I meant to be as clear as possible and thus, I made it almost step by step.