5 changed files with 1 additions and 83 deletions
--- a/fourcell/README.md
+++ b/fourcell/README.md
@ -32,23 +32,4 @@ _______________  _______________
 | 5         6 |  | 4         5 |
 |             |  |             |
 ---------------  ---------------
-```
-
-
-## Calibration Layout Order
-
-```   
-_______________  _______________ 
-|             |  |             |
-| 1   2 3   0 |  |             |
-|             |  |   1     2   |
-|             |  |             |
-| 0   3 2   1 |  |             |
-|             |  |             |
-| 1   2 3   0 |  |             |
-|             |  |             |
-|             |  |   0      3  |
-| 0   3 2   1 |  |             |
-|             |  |             |
---------------  ---------------
-```
+```
--- a/fourcell/notes/affine_poc.py
+++ b/fourcell/notes/affine_poc.py
@ -1,29 +0,0 @@
-import cv2
-import numpy as np
-
-#outer template
-outer = cv2.imread("graph.jpeg")
-#inner image
-inner = cv2.imread("emoji.jpeg")
-
-rows, cols, ch = outer.shape
-ir, ic, ich = inner.shape
-
-print(f'{cols}x{rows}')
-print(f'{ic}x{ir}')
-
-# destination ponts on outer image
-pts1 = np.float32([[15, 15], [200, 30], [50, 140]])
-
-# corresponding points on inner image
-pts2 = np.float32([[0, 0], [ic, 0], [0, ir]])
-
-# transform inner to points on outer
-M = cv2.getAffineTransform(pts2, pts1)
-
-# apply
-dst = cv2.warpAffine(inner, M, (cols, rows), borderMode=cv2.BORDER_TRANSPARENT)
-
-final = outer.copy()
-final[0:rows, 0:cols] = dst
-cv2.imwrite("affine_poc.png", final)
--- a/fourcell/notes/emoji.jpeg
+++ b/fourcell/notes/emoji.jpeg
--- a/fourcell/notes/graph.jpeg
+++ b/fourcell/notes/graph.jpeg
--- a/fourcell/notes/spec.txt
+++ b/fourcell/notes/spec.txt
@ -1,34 +0,0 @@
-# apply_images
-
-* Take calibration json as argument
-* Create blank image of width and height
-* Place idealized circles where hole punches are supposed to be
-* Place fiducials in corners of images
-* Take up to 4 images as arguments
-* Perform AffineTransform on as many source locations as needed
-* Place images according to AffineTransform
-* Write final image out
-
-### Potentials needs
-
-* One time xy offset, calibrated to hole punches
-* Hole punch several sheets at the same time, calibrate to one and print on them
-* OR
-* Calibrate, then print on un-punched sheets and place guides for punching
-* (this may be less reliable)
-
-# apply_svg
-
-* Create svg document scaling width and height to 96dpi equivalent
-* Normalize all measurements to 96dpi equivalent
-* Place idealized circles where hole punches are supposed to be
-* Take up to 4 svg files as arguments
-* Find best fit for svg within 4 frames, rotation, scale and position
-* Place or embed or re-write svg within frame, one at a time
-* Write out final svg
-
-
-### Potential needs
-
-* One time xy offset, calibrated to hole punches
-* Special board to draw this on (as opposed to free form mat)