src/drawing/api.lisp @ fa5e614ee7f9
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Comment out scratch code
author |
Steve Losh <steve@stevelosh.com> |
date |
Thu, 02 Dec 2021 18:48:27 -0500 |
parents |
f51cda0a23b2 |
children |
(none) |
(in-package :flax.drawing)
;;;; Parameters ---------------------------------------------------------------
(defparameter *black* (rgb 0 0 0))
(defparameter *white* (rgb 1 1 1))
;;;; Canvas -------------------------------------------------------------------
(defclass* canvas ()
((width :type (integer 1))
(height :type (integer 1))
(padding :type (single-float 0.0 0.5) :initform 0.03)
(output-transformation :type mat3)))
(defun recompute-output-transformation (canvas)
(setf (output-transformation canvas)
(transformation
(place (vec 0 0)
(vec (coerce (width canvas) 'single-float)
(coerce (height canvas) 'single-float))
:padding (padding canvas)))))
(defmethod initialize-instance :after ((canvas canvas) &key)
(recompute-output-transformation canvas))
(define-with-macro canvas width height)
(defgeneric make-canvas (type &key &allow-other-keys))
;;;; Utils --------------------------------------------------------------------
(defun-inline homogenize (v)
(vec3 (vx v) (vy v) 1))
(defun convert-coordinate (canvas coordinate)
(let ((c (m* (output-transformation canvas) coordinate)))
(values (vx3 c) (vy3 c))))
(defun convert-magnitude (canvas magnitude)
(ntransform magnitude (output-transformation canvas)))
(defmacro with-coordinate (canvas-symbol binding &body body)
(ecase (length binding)
(2 (destructuring-bind (magnitude-symbol value) binding
`(let ((,magnitude-symbol (convert-magnitude ,canvas-symbol ,value)))
,@body)))
(3 (destructuring-bind (x-symbol y-symbol value) binding
`(multiple-value-bind (,x-symbol ,y-symbol)
(convert-coordinate ,canvas-symbol ,value)
,@body)))))
(defmacro with-coordinates (canvas bindings &body body)
(once-only (canvas)
`(nest
,@(mapcar (lambda (binding)
`(with-coordinate ,canvas ,binding))
bindings)
(progn ,@body))))
(defun coord-to-string (c)
(format nil "(~A, ~A)" (vx c) (vy c)))
(defun coord-to-pair (canvas c)
(with-coordinates canvas ((x y c))
(cons x y)))
(defun coords-to-pairs (canvas cs)
(loop :for c :in cs :collect (coord-to-pair canvas c)))
;;;; Drawables ----------------------------------------------------------------
(defclass* drawable ()
((opacity :type (double-float 0.0d0 1.0d0))
(color :type color)))
(defgeneric draw (canvas drawing-object))
;;;; Paths --------------------------------------------------------------------
(defclass* path (drawable)
((points :type list)))
(defun normalize-point (point)
(if (listp point)
point
(list point)))
(defun normalize-points (points)
(mapcar #'normalize-point points))
(defun path (points &key (opacity 1.0d0) (color *black*))
(make-instance 'path
:points (mapcar-curried #'mapcar #'homogenize (normalize-points points))
:color color
:opacity (coerce opacity 'double-float)))
(defmethod print-object ((o path) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "~{~A~^ -> ~}"
(mapcar (compose #'coord-to-string #'first) (points o)))))
(defmethod ntransform ((path path) transformation)
(dolist (ps (points path))
(dolist (p ps)
(ntransform p transformation)))
path)
;;;; Triangles ----------------------------------------------------------------
(defclass* triangle (drawable)
((a :type vec3)
(b :type vec3)
(c :type vec3)))
(defun triangle (a b c &key (opacity 1.0d0) (color *black*))
(make-instance 'triangle :a (homogenize a) :b (homogenize b) :c (homogenize c)
:color color
:opacity (coerce opacity 'double-float)))
(defmethod print-object ((o triangle) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "(~D, ~D) (~D, ~D) (~D, ~D)"
(vx (a o))
(vy (a o))
(vx (b o))
(vy (b o))
(vx (c o))
(vy (c o)))))
(defmethod ntransform ((triangle triangle) transformation)
(ntransform (a triangle) transformation)
(ntransform (b triangle) transformation)
(ntransform (c triangle) transformation)
triangle)
;;;; Rectangles ---------------------------------------------------------------
(defclass* rectangle (drawable)
((a :type vec3)
(b :type vec3)
(round-corners :type float :initform 0.0)))
(defun rectangle (a b &key (opacity 1.0d0) (color *black*) round-corners)
(make-instance 'rectangle :a (homogenize a) :b (homogenize b)
:color color
:opacity (coerce opacity 'double-float)
:round-corners (or round-corners 0.0)))
(defmethod print-object ((o rectangle) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "(~D, ~D) (~D, ~D)"
(vx (a o))
(vy (a o))
(vx (b o))
(vy (b o)))))
(defun compute-corner-rounding (canvas rect)
(if-let ((rounding (round-corners rect)))
(with-canvas (canvas)
(* rounding
(* (- 1.0 (* 2 (padding canvas)))
(min height width))))
0))
(defmethod ntransform ((rectangle rectangle) transformation)
(ntransform (a rectangle) transformation)
(ntransform (b rectangle) transformation)
(zapf (round-corners rectangle) (ntransform % transformation))
rectangle)
;;;; Circles ------------------------------------------------------------------
(defclass* circle (drawable)
((center :type vec3)
(radius :type single-float)))
(defun circle (center radius &key (opacity 1.0d0) (color *black*))
(make-instance 'circle :center (homogenize center) :radius radius
:color color
:opacity (coerce opacity 'double-float)))
(defmethod print-object ((o circle) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "(~D, ~D) radius ~D"
(vx (center o))
(vy (center o))
(radius o))))
(defmethod ntransform ((circle circle) transformation)
(ntransform (center circle) transformation)
;; For non-aspect-ratio-preserving transformations, we want to keep circles
;; as circles, but ensure they fit within the new bounding box. So we take
;; the smaller of the two possible radius transformations.
(let ((a (vec 0 0 1))
(b (vec 1 1 1)))
(ntransform a transformation)
(ntransform b transformation)
(let ((c (v- a b)))
(mulf (radius circle) (min (abs (vx c)) (abs (vy c))))))
circle)
;;;; Points -------------------------------------------------------------------
(defclass* point (drawable)
((location :type vec3)))
(defun point (location &key (opacity 1.0d0) (color *black*))
(make-instance 'point :location (homogenize location)
:color color
:opacity (coerce opacity 'double-float)))
(defmethod print-object ((o point) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "(~D, ~D)"
(vx (location o))
(vy (location o)))))
(defmethod ntransform ((point point) transformation)
(ntransform (location point) transformation)
point)
;;;; Glyph --------------------------------------------------------------------
(defclass* glyph (drawable)
((pos :type vec3)
(width :type single-float)
(ch :type character)
(paths :type list)))
(defun glyph (position width character &key (opacity 1.0d0) (color *black*))
(make-instance 'glyph
:pos (homogenize position)
:width (coerce width 'single-float)
:ch character
:color color
:opacity (coerce opacity 'double-float)))
(defun recompute-glyph-paths (glyph)
(let ((paths (letter-paths (ch glyph)))
(size (* 2 (width glyph))))
(ntransform paths (transformation
(scale size size)
(translate (vx (pos glyph))
(vy (pos glyph)))))
(setf (paths glyph) paths)))
(defmethod initialize-instance :after ((glyph glyph) &key)
(recompute-glyph-paths glyph))
(defmethod print-object ((o glyph) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "~A ~A" (ch o) (pos o))))
(defmethod ntransform ((glyph glyph) transformation)
(ntransform (pos glyph) transformation)
(ntransformf (width glyph) transformation)
(ntransformf (paths glyph) transformation)
;; (recompute-glyph-paths glyph)
glyph)
(defmethod draw (canvas (glyph glyph))
(map-curried #'draw canvas (paths glyph)))
;;;; Text ---------------------------------------------------------------------
(defclass* text (drawable)
((pos :type vec3)
(letter-width :type single-float)
(letter-spacing :type single-float)
(content :type string)
(glyphs :type list)))
(defun rebuild-glyphs (text)
(setf (glyphs text)
(iterate
(with pos = (pos text))
(with y = (vy (pos text)))
(with space = (+ (letter-width text) (letter-spacing text)))
(with scale = (/ (letter-width text) 0.5))
(for ch :in-string (content text))
(for pch :previous ch)
(for x :from (vx pos) :by space)
(incf x (* (kern pch ch) scale))
(collect (glyph (vec x y) (letter-width text) ch
:opacity (opacity text)
:color (color text))))))
(defun text (position letter-width content &key (letter-spacing 0.0) (opacity 1.0d0) (color *black*))
(make-instance 'text
:pos (homogenize position)
:letter-width (coerce letter-width 'single-float)
:letter-spacing (coerce letter-spacing 'single-float)
:content content
:color color
:opacity (coerce opacity 'double-float)))
(defmethod initialize-instance :after ((text text) &key)
(rebuild-glyphs text))
(defmethod print-object ((o text) s)
(print-unreadable-object (o s :type t :identity nil)
(format s "~S ~A"
(content o)
(pos o))))
(defmethod draw (canvas (text text))
(map-curried #'draw canvas (glyphs text)))
(defmethod ntransform ((text text) transformation)
(ntransform (pos text) transformation)
(ntransformf (letter-width text) transformation)
(rebuild-glyphs text)
text)
;;;; Rendering ----------------------------------------------------------------
(defgeneric render-object (canvas object))
(defun render (canvas objects)
(map-curried #'render-object canvas objects))
;;;; File Writing -------------------------------------------------------------
(defgeneric write-file (canvas filename))
;;;; File Extensions ----------------------------------------------------------
(defgeneric file-extension (type))
(defmethod file-extension (type)
(string-downcase (symbol-name type)))
;;;; Toplevel -----------------------------------------------------------------
(defun full-filename (filename canvas-type)
(format nil "~A.~A" filename (file-extension canvas-type)))
(defmacro with-rendering
((canvas-symbol canvas-type filename width height &key
(padding 0.03)
(background '(rgb 1 1 1)))
&body body)
(once-only (canvas-type)
`(progn
#+sbcl (sb-ext:gc :full t)
(let ((,canvas-symbol (make-canvas ,canvas-type
:height ,height
:width ,width
:padding ,padding
:background ,background)))
(multiple-value-prog1 ,@body
(write-file ,canvas-symbol (full-filename ,filename ,canvas-type)))))))
;;;; Usage --------------------------------------------------------------------
;;;; Implementations ----------------------------------------------------------
;;; To implement a new type of canvas, you'll need to:
;;;
;;; * Add a new subclass of canvas.
;;; * Implement make-canvas.
;;; * Implement all the drawing methods for the various shapes.
;;; * Implement render-object (which should call draw and maybe do other stuff).
;;; * Implement write-file.