In the picture language in SICP I'm having trouble understanding how the `transform-painter`

procedure works:

```
(define (transform-painter painter origin corner1 corner2)
(lambda (frame)
(let ((m (frame-coord-map frame)))
(let ((new-origin (m origin)))
(painter
(make-frame new-origin
(sub-vect (m corner1) new-origin)
(sub-vect (m corner2) new-origin)))))))
```

Specifically why the vector subtraction of the edge mappings of the argument frame by the new-origin is necessary. I would have thought the mapping of the new corners, i.e `(m corner1)`

and `(m corner2)`

, could serve as the new edges of the transformed frame.

I've done some calculation and I want to know where i'm mixed up.
Taking `flip-vert`

as an example,

```
(define (flip-vert painter)
(transform-painter painter
(make-vect 0.0 1.0) ; new origin
(make-vect 1.0 1.0) ; new end of edge1
(make-vect 0.0 0.0))) ; new end of edge2
```

let `flip-vert`

take as argument a frame with the following dimensions,

Origin = (0, 0), Edge1 = (4, 0), Edge2 = (0, 4)

Accordingly the mapping formula would become `(0,0) + x(4,0) + y(0, 4)`

.

In the case of `flip-vert`

the `origin`

, `corner1`

, and `corner2`

passed as arguments to `transform-painter`

are `(0,1)`

, `(1,1)`

and `(0,0)`

respectively.

So after placing them in the mapping formula, one after the other, we get the results

new-origin = (0,0)+0*(4,0)+1*(0,4) = (0,4)

mapped-corner1 = (0,0)+1*(4,0)+1*(0,4) = (4,4)

mapped-corner2 = (0,0)

Now the `transform-painter`

takes the final two results and subtracts them by the `new-origin`

to build the new frame, resulting in a frame with the following dimensions.

Origin = (0,4), New-corner1 = (4,0), New-corner2 = (0,-4)

Looking at these points on a coordinate plane the results don't seem right, while the original corner results before the subtractions took place, do. What am I doing wrong?