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;;; (c) copyright 1998,1999,2000 by Michael McDonald (mikemac@mikemac.com)
;;; (c) copyright 2000 by Robert Strandh (strandh@labri.u-bordeaux.fr)
;;; (c) copyright 1998,2002 by Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Library General Public
;;; License as published by the Free Software Foundation; either
;;; version 2 of the License, or (at your option) any later version.
;;;
;;; This library is distributed in the hope that it will be useful,
;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;;; Library General Public License for more details.
;;;
;;; You should have received a copy of the GNU Library General Public
;;; License along with this library; if not, write to the
;;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;;; Boston, MA 02111-1307 USA.
;;;; Some Notes
;; The design design has a pitfall:
;;
;; As drawing is specified, a design of class opacity carries no color
;; and thus borrows its color from +foreground-ink+. So that
;;
;; (make-opacity v) == (compose-in +foreground-ink+ (make-opacity v))
;;
;; This implies, that an opacity is not neccessary uniform, it depends
;; on the selected foreground ink.
;;
;; They halfway fix this by specifing that the mask argument of
;; compose-in and compose-out is thought as to be drawn with
;; +foreground-ink+ = +background-ink+ = +black+.
;;
;; But Is (make-opacity 1) really the same as +foreground-ink+?
;; Or: Is
;; (compose-in D +foreground-ink+) different from
;; (compose-in D (make-opacity 1))?
;;
;; If the above equation is true, we get a funny algebra:
;;
;; (make-opacity 0) = +transparent-ink+ = +nowhere+
;; (make-opacity 1) = +foreground-ink+ = +everywhere+
;;
;; --GB
;; I agree with this interpretation. -Hefner
;; It might be handy to have the equivalent of parent-relative
;; backgrounds. We can specify new indirect inks:
;;
;; +parent-background+
;; +parent-relative-background+
;; +parent-foreground+
;; +parent-relative-foreground+
;;
;; The relative one would have the same "absolute" origin as the
;; relevant inks of the parent.
;;
;; When they are evaluated, they look at the parent's
;; foreground/background ink. Though the relative variants are
;; expensive, when you want to scroll them ...
;;
;;
;; Further we really should specify some form of indirekt ink
;; protocol.
;;
;; --GB
;;;; Design Protocol
;;
;; DRAW-DESIGN already is all you need for a design protocol.
;;
;; --GB
(in-package :clim-internals)
(eval-when (:compile-toplevel :load-toplevel :execute)
(defgeneric color-rgb (color))
(defmethod print-object ((color color) stream)
(print-unreadable-object (color stream :identity nil :type t)
(multiple-value-call #'format stream "~,4F ~,4F ~,4F" (color-rgb color))))
;;; standard-color
(defclass standard-color (color)
((red :initarg :red
:initform 0
:type (real 0 1))
(green :initarg :green
:initform 0
:type (real 0 1))
(blue :initarg :blue
:initform 0
:type (real 0 1))))
(defmethod color-rgb ((color standard-color))
(with-slots (red green blue) color
(values red green blue)))
(defclass named-color (standard-color)
((name :initarg :name
:initform "Unnamed color") ))
(defmethod print-object ((color named-color) stream)
(with-slots (name) color
(print-unreadable-object (color stream :type t :identity nil)
(format stream "~S" name))))
(defmethod make-load-form ((color named-color) &optional env)
(declare (ignore env))
(with-slots (name red green blue) color
`(make-named-color ',name ,red ,green ,blue)))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defvar *color-hash-table* (make-hash-table :test #'eql)))
(defun compute-color-key (red green blue)
(+ (ash (round (* 255 red)) 16)
(ash (round (* 255 green)) 8)
(round (* 255 blue))))
(defun make-rgb-color (red green blue)
(let ((key (compute-color-key red green blue)))
(declare (type fixnum key))
(or (gethash key *color-hash-table*)
(setf (gethash key *color-hash-table*)
(make-instance 'named-color :red red :green green :blue blue)))))
(defun make-gray-color (intensity)
(make-rgb-color intensity intensity intensity))
(defun make-named-color (name red green blue)
(let* ((key (compute-color-key red green blue))
(entry (gethash key *color-hash-table*)))
(declare (type fixnum key))
(cond (entry
(when (string-equal (slot-value entry 'name) "Unnamed color")
(setf (slot-value entry 'name) name))
entry)
(t (setf (gethash key *color-hash-table*)
(make-instance 'named-color :name name :red red :green green :blue blue))))))
) ; eval-when
;;; ;;; For ihs to rgb conversion, we use the formula
;;; ;;; i = (r+g+b)/3
;;; ;;; s = 1-min(r,g,b)/i
;;; ;;; h = 60(g-b)/(max(r,g,b)-min(r,g,b)) if r >= g,b
;;; ;;; 120+60(b-r)/(max(r,g,b)-min(r,g,b)) if g >= r,b
;;; ;;; 240+60(r-g)/(max(r,g,b)-min(r,g,b)) if b >= r,g
;;; ;;; First, we introduce colors x, y, z such that x >= y >= z
;;; ;;; We compute x, y, and z and then determine the correspondance
;;; ;;; between x, y, and z on the one hand and r, g, and b on the other.
;;; (defun make-ihs-color (i h s)
;;; (assert (and (<= 0 i 1)
;;; (<= 0 s 1)
;;; (<= 0 h 360)))
;;; (let ((ah (/ (abs (cond ((<= h 60) h)
;;; ((<= h 180) (- h 120))
;;; ((<= h 300) (- h 240))
;;; (t (- h 360))))
;;; 60)))
;;; (let* ((z (* i (- 1 s)))
;;; (y (/ (+ (* ah (- (* 3 i) (* 2 z))) z) (+ 1 ah)))
;;; (x (- (* 3 i) y z)))
;;; (assert (and (<= 0 x 1)
;;; (<= 0 y 1)
;;; (<= 0 z 1)))
;;; (cond ((<= h 60) (make-rgb-color x y z))
;;; ((<= h 120) (make-rgb-color y x z))
;;; ((<= h 180) (make-rgb-color z x y))
;;; ((<= h 240) (make-rgb-color z y x))
;;; ((<= h 300) (make-rgb-color y z x))
;;; (t (make-rgb-color x z y))))))
;;;
;;; (defmethod color-ihs ((color color))
;;; (multiple-value-bind (r g b) (color-rgb color)
;;; (let ((max (max r g b))
;;; (min (min r g b))
;;; (intensity (/ (+ r g b) 3)))
;;; (if (= max min)
;;; (values intensity 0 0)
;;; (let* ((saturation (- 1 (/ min intensity)))
;;; (diff (- max min))
;;; (hue (* 60 (cond ((= max r) (/ (- g b) diff))
;;; ((= max g) (+ 2 (/ (- b r) diff)))
;;; (t (+ 4 (/ (- r g) diff)))))))
;;; (when (< hue 0)
;;; (incf hue 360))
;;; (values intensity hue saturation))))))
;;;
;;; Below is a literal translation from Dylan's DUIM source code,
;;; which was itself probably literal translation from some Lisp code.
;;;
(defconstant +ihs-rgb-c1+ (sqrt (coerce 1/6 'double-float)))
(defconstant +ihs-rgb-c2+ (sqrt (coerce 1/2 'double-float)))
(defconstant +ihs-rgb-c3+ (sqrt (coerce 1/3 'double-float)))
(defun ihs-to-rgb (intensity hue saturation)
(let* ((hh (- (* (mod (- hue 1/2) 1) 2 pi) pi))
(c3 (cos saturation))
(s3 (sin saturation))
(cos-hh (cos hh))
(sin-hh (sin hh))
(x (* +ihs-rgb-c1+ s3 cos-hh intensity))
(y (* +ihs-rgb-c2+ s3 sin-hh intensity))
(z (* +ihs-rgb-c3+ c3 intensity)))
(declare (type (real #.(- pi) #.pi) hh))
(values (max 0 (min 1 (+ x x z)))
(max 0 (min 1 (+ y z (- x))))
(max 0 (min 1 (- z x y))))))
(defun rgb-to-ihs (red green blue)
(let* ((x (* +ihs-rgb-c1+ (- (* 2 red) blue green)))
(y (* +ihs-rgb-c2+ (- green blue)))
(z (* +ihs-rgb-c3+ (+ red green blue)))
(q (+ (* x x) (* y y)))
(intensity (sqrt (+ q (* z z))))) ;sqrt(r^2 + g^2 + b^2)
(if (zerop q)
;; A totally unsaturated color
(values intensity 0 0)
(let* ((hue (mod (/ (atan y x) (* 2 pi)) 1))
(f1 (/ z intensity))
(f2 (sqrt (- 1 (* f1 f1))))
(saturation (atan f2 f1)))
(values intensity hue saturation)))))
(defgeneric color-ihs (color))
(defmethod color-ihs ((color color))
(multiple-value-call #'rgb-to-ihs (color-rgb color)))
(defun make-ihs-color (i h s)
(multiple-value-call #'make-rgb-color (ihs-to-rgb i h s)))
(defun make-contrasting-inks (n &optional k)
;; Look +contrasting-colors+ up at runtime, because it has not yet been
;; declared when this is compiled.
(let ((contrasting-colors (symbol-value '+contrasting-colors+)))
(if (> n (length contrasting-colors))
(error "The argument N is out of range [1-~D]" (length contrasting-colors)))
(if (null k)
(subseq contrasting-colors 0 n)
(aref contrasting-colors k))))
#||
;;; I used this function to generate the predefined colors and names - mikemac@mikemac.com
(defun generate-named-colors ()
(with-open-file (out "X11-colors.lisp" :direction :output :if-exists :supersede)
(with-open-file (in "/usr/X11/lib/X11/rgb.txt" :direction :input)
(format out ";;; -*- Mode: Lisp; Package: CLIM-INTERNALS -*-~%~%")
(format out "(in-package :clim-internals)~%~%")
(loop with names = nil
for line = (read-line in nil nil)
until (null line)
do (if (eql (aref line 0) #\!)
(format out ";~A~%" (subseq line 1))
(multiple-value-bind (red index) (parse-integer line :start 0 :junk-allowed t)
(multiple-value-bind (green index) (parse-integer line :start index :junk-allowed t)
(multiple-value-bind (blue index) (parse-integer line :start index :junk-allowed t)
(let ((name (substitute #\- #\Space (string-trim '(#\Space #\Tab #\Newline) (subseq line index)))))
(format out "(defconstant +~A+ (make-named-color ~S ~,4F ~,4F ~,4F))~%" name name (/ red 255.0) (/ green 255.0) (/ blue 255.0))
(setq names (nconc names (list name))))))))
finally (format out "~%(defconstant +contrasting-colors+ (vector +black+ +red+ +green+ +blue+ +cyan+ +magenta+ +yellow+ +white+))~%~%")
(format out "(eval-when (eval compile load)~% (export '(")
(loop for name in names
for count = 1 then (1+ count)
do (format out "+~A+ " name)
(when (= count 4)
(format out "~% ")
(setq count 0)))
(format out "~% )))~%")
))))
||#
;;;; Design <-> Region Equivalences
;;; As Gilbert points in his notes, transparent ink is in every
;;; respect interchangable with the nowhere region, and likewise
;;; foreground ink is interchangable with the everywhere region.
;;; By defining the following mixins and adding them to the
;;; appropriate ink/region class pairs, we can reduce the number
;;; of methods necessary.
(defclass everywhere-mixin () ())
(defclass nowhere-mixin () ())
;;;;
;;;; 13.6 Indirect Inks
;;;;
(defclass indirect-ink (design) ())
(defclass %foreground-ink (indirect-ink everywhere-mixin) ())
(defvar +foreground-ink+ (make-instance '%foreground-ink))
(defvar +background-ink+ (make-instance 'indirect-ink))
(defmethod print-object ((ink (eql +foreground-ink+)) stream)
(format stream "#.~S" '+foreground-ink+))
(defmethod print-object ((ink (eql +background-ink+)) stream)
(format stream "#.~S" '+background-ink+))
;;;;
;;;; 13.4 Opacity
;;;;
(defmethod print-object ((object opacity) stream)
(print-unreadable-object (object stream :identity nil :type t)
(format stream "~S" (opacity-value object))))
;; Note: Though tempting, opacity is not a uniform-design!
(defclass standard-opacity (opacity)
((value :initarg :value
:type (real 0 1)
:reader opacity-value)))
(defclass %transparent-ink (standard-opacity nowhere-mixin)
()
(:default-initargs :value 0))
(defvar +transparent-ink+
(make-instance '%transparent-ink :value 0))
(defmethod opacity-value ((region everywhere-mixin))
(declare (ignore region))
1.0)
(defmethod opacity-value ((region nowhere-mixin))
(declare (ignore region))
0.0)
(defun make-opacity (value)
(setf value (clamp value 0 1)) ;defensive programming
(cond ((= value 0) +transparent-ink+)
((= value 1) +everywhere+) ; used to say +foreground-ink+
(t
(make-instance 'standard-opacity :value value))))
;;;;
;;;; 13.7 Flipping Ink
;;;;
(defclass standard-flipping-ink (design)
((design1 :initarg :design1
:type design)
(design2 :initarg :design2
:type design)))
(defvar +flipping-ink+ (make-instance 'standard-flipping-ink
:design1 +foreground-ink+
:design2 +background-ink+))
(defmethod print-object ((ink (eql +flipping-ink+)) stream)
(format stream "#.~S" '+flipping-ink+))
(defmethod print-object ((flipper standard-flipping-ink) stream)
(with-slots (design1 design2) flipper
(print-unreadable-object (flipper stream :identity nil :type t)
(format stream "~S ~S" design1 design2))))
(defgeneric make-flipping-ink (design1 design2))
(defmethod make-flipping-ink ((design1 design) (design2 design))
(make-instance 'standard-flipping-ink :design1 design1 :design2 design2))
(defmethod make-flipping-ink ((design1 (eql +foreground-ink+))
(design2 (eql +background-ink+)))
+flipping-ink+)
(defmethod make-flipping-ink ((design1 (eql +background-ink+))
(design2 (eql +foreground-ink+)))
+flipping-ink+)
;;;;
;;;; 14 General Designs
;;;;
(declaim (inline color-blend-function))
(defun color-blend-function (r1 g1 b1 o1 r2 g2 b2 o2)
(let* ((o3 (+ o1 (* (- 1 o1) o2)))
(r3 (/ (+ (* r1 o1) (* (- 1 o1) o2 r2)) o3))
(g3 (/ (+ (* g1 o1) (* (- 1 o1) o2 g2)) o3))
(b3 (/ (+ (* b1 o1) (* (- 1 o1) o2 b2)) o3)))
(values
r3 g3 b3 o3)))
(defgeneric compose-over (design1 design2))
(defgeneric compose-in (ink mask))
(defgeneric compose-out (ink mask))
;;; RGB image designs, efficient support for truecolor images. ARGB
;;; image data represented as an (unsigned-byte 32) array
(defclass rgb-image ()
((width :initarg :width :accessor image-width)
(height :initarg :height :accessor image-height)
(data :initarg :data
:accessor image-data
:type (or null (simple-array (unsigned-byte 32) (* *))))
(alphap :initarg :alphap
:initform nil
:accessor image-alpha-p)))
;; Applications (closure in particular) might want to cache any
;; backend-specific data required to draw an RGB-IMAGE.
;;
;; To implement this caching, designs must be created separately for each
;; medium, so that mediums can put their own data into them.
(defclass rgb-image-design (design)
((medium :initform nil :initarg :medium)
(image :reader image
:initarg :image)
(medium-data :initform nil)))
(defun make-rgb-image-design (image)
(make-instance 'rgb-image-design :image image))
;; Protocol to free cached data
(defgeneric medium-free-image-design (medium design))
(defun free-image-design (design)
(medium-free-image-design (slot-value design 'medium) design))
;; Drawing protocol
(defgeneric medium-draw-image-design* (medium design x y))
;; Fetching protocol
(defun sheet-rgb-image (sheet &key x y width height)
(multiple-value-bind (data alphap)
(sheet-rgb-data (port sheet)
sheet
:x x
:y y
:width width
:height height)
(destructuring-bind (height width)
(array-dimensions data)
(make-instance 'rgb-image
:width width
:height height
:data data
:alphap alphap))))
(defgeneric sheet-rgb-data (port sheet &key x y width height))
(defmethod draw-design
(medium (design rgb-image-design) &rest options
&key (x 0) (y 0) &allow-other-keys)
(with-medium-options (medium options)
(medium-draw-image-design* medium design x y)))
;; PATTERN is just the an abstract class of all pattern-like design.
;; For performance might consider to sort out pattern, which consists
;; of uniform designs only and convert them to an RGBA-image.
(define-protocol-class pattern (design))
(defclass indexed-pattern (pattern)
((array :initarg :array :reader pattern-array)
(designs :initarg :designs :reader pattern-designs)))
(defun make-pattern (array designs)
(make-instance 'indexed-pattern :array array :designs designs))
(defmethod pattern-width ((pattern indexed-pattern))
(array-dimension (pattern-array pattern) 1))
(defmethod pattern-height ((pattern indexed-pattern))
(array-dimension (pattern-array pattern) 0))
(defclass stencil (pattern)
((array :initarg :array)))
(defun make-stencil (array)
(make-instance 'stencil :array array))
(defmethod pattern-width ((pattern stencil))
(with-slots (array) pattern
(array-dimension array 1)))
(defmethod pattern-height ((pattern stencil))
(with-slots (array) pattern
(array-dimension array 0)))
;; These methods are included mostly for completeness and are likely
;; of little use in practice.
(defmethod pattern-array ((pattern stencil))
(let ((array (make-array (list (pattern-height pattern)
(pattern-width pattern)))))
(dotimes (i (pattern-height pattern))
(dotimes (j (pattern-width pattern))
(setf (aref array i j) (+ (* i (array-dimension array 1)) j))))
array))
(defmethod pattern-designs ((pattern stencil))
(with-slots (array) pattern
(let ((designs (make-array (* (pattern-height pattern)
(pattern-width pattern)))))
(dotimes (i (length designs))
(setf (aref designs i) (make-opacity (row-major-aref array i))))
array)))
(defclass rgb-pattern (pattern rgb-image-design)
())
(defmethod pattern-width ((pattern rgb-pattern))
(image-width (image pattern)))
(defmethod pattern-height ((pattern rgb-pattern))
(image-height (image pattern)))
;; RGB-PATTERNs must be treated specially...
(defmethod medium-draw-pattern* (medium (pattern rgb-pattern) x y)
(medium-draw-image-design* medium pattern x y))
;;;
(defclass transformed-design (design)
((transformation
:initarg :transformation
:reader transformed-design-transformation)
(design
:initarg :design
:reader transformed-design-design)))
(defmethod transform-region (transformation (design design))
(make-instance 'transformed-design
:transformation transformation
:design design))
(defmethod transform-region (transformation (design pattern))
(make-instance 'transformed-design
:transformation transformation
:design design))
;;;
(defclass rectangular-tile (design)
((width :initarg :width :reader rectangular-tile-width)
(height :initarg :height :reader rectangular-tile-height)
(design :initarg :design :reader rectangular-tile-design)))
(defun make-rectangular-tile (design width height)
(make-instance 'rectangular-tile
:width width
:height height
:design design))
;;;
(defclass masked-compositum (design)
((ink :initarg :ink :reader compositum-ink)
(mask :initarg :mask :reader compositum-mask)))
(defmethod print-object ((object masked-compositum) stream)
(print-unreadable-object (object stream :identity nil :type t)
(format stream "~S ~S ~S ~S"
:ink (compositum-ink object)
:mask (compositum-mask object))))
(defclass in-compositum (masked-compositum) ())
(defmethod compose-in ((ink design) (mask design))
(make-instance 'in-compositum
:ink ink
:mask mask))
(defclass out-compositum (masked-compositum) ())
(defmethod compose-out ((ink design) (mask design))
(make-instance 'out-compositum
:ink ink
:mask mask))
(defclass over-compositum (design)
((foreground :initarg :foreground :reader compositum-foreground)
(background :initarg :background :reader compositum-background)))
(defmethod compose-over ((foreground design) (background design))
(make-instance 'over-compositum
:foreground foreground
:background background))
(defclass uniform-compositum (in-compositum)
;; we use this class to represent rgbo values
())
;;;
;;; color
;;; opacity
;;; indirect-ink
;;; in-compositum
;;; over-compositum
;;; out-compositum
;;; uniform-compositum
;;;
;;;; ------------------------------------------------------------------------------------------
;;;;
;;;; COMPOSE-IN
;;;;
(defun make-uniform-compositum (ink opacity-value)
(cond ((= opacity-value 0)
+transparent-ink+)
((= opacity-value 1)
ink)
(t
(make-instance 'uniform-compositum
:ink ink
:mask (make-opacity opacity-value)))))
;;; COLOR
(defmethod compose-in ((ink design) (mask color))
(declare (ignorable ink))
ink)
;;; OPACITY
(defmethod compose-in ((ink opacity) (mask opacity))
(make-opacity (* (opacity-value ink) (opacity-value mask))))
(defmethod compose-in ((ink color) (mask opacity))
(make-uniform-compositum ink (opacity-value mask)))
;;; UNIFORM-COMPOSITUM
(defmethod compose-in ((ink uniform-compositum) (mask uniform-compositum))
(make-uniform-compositum (compositum-ink ink)
(* (opacity-value (compositum-mask ink))
(opacity-value (compositum-mask mask)))))
(defmethod compose-in ((ink uniform-compositum) (mask opacity))
(make-uniform-compositum (compositum-ink ink)
(* (opacity-value (compositum-mask ink))
(opacity-value mask))))
(defmethod compose-in ((ink opacity) (mask uniform-compositum))
(make-opacity (* (opacity-value mask)
(opacity-value (compositum-mask mask)))))
(defmethod compose-in ((ink color) (mask uniform-compositum))
(make-uniform-compositum ink (opacity-value mask)))
(defmethod compose-in ((design design) (mask everywhere-mixin))
(declare (ignore mask))
design)
(defmethod compose-in ((design design) (mask nowhere-mixin))
(declare (ignore design mask))
+nowhere+)
;;; IN-COMPOSITUM
;; Since compose-in is associative, we can write it this way:
(defmethod compose-in ((ink in-compositum) (mask design))
(compose-in (compositum-ink ink)
(compose-in (compositum-mask ink)
mask)))
#+nyi
(defmethod compose-in ((ink opacity) (mask in-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink color) (mask in-compositum))
(declare (ignorable ink mask))
)
;;; OUT-COMPOSITUM
#+nyi
(defmethod compose-in ((ink out-compositum) (mask out-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink out-compositum) (mask in-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink out-compositum) (mask uniform-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink out-compositum) (mask opacity))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink uniform-compositum) (mask out-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink opacity) (mask out-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink color) (mask out-compositum))
(declare (ignorable ink mask))
)
;;; OVER-COMPOSITUM
#+nyi
(defmethod compose-in ((ink over-compositum) (mask over-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink over-compositum) (mask out-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink over-compositum) (mask in-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink over-compositum) (mask uniform-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink over-compositum) (mask opacity))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink out-compositum) (mask over-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink uniform-compositum) (mask over-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink opacity) (mask over-compositum))
(declare (ignorable ink mask))
)
#+nyi
(defmethod compose-in ((ink color) (mask over-compositum))
(declare (ignorable ink mask))
)
;;;; ------------------------------------------------------------------------------------------
;;;;
;;;; Compose-Out
;;;;
(defmethod compose-out ((design design) (mask everywhere-mixin))
(declare (ignore design mask))
+nowhere+)
(defmethod compose-out ((design design) (mask nowhere-mixin))
(declare (ignore mask))
design)
(defmethod compose-out ((design design) (mask color))
(declare (ignore design mask))
+nowhere+)
(defmethod compose-out ((design design) (mask uniform-compositum))
(compose-in design (make-opacity (- 1.0 (compositum-mask (opacity-value mask))))))
(defmethod compose-out ((design design) (mask standard-opacity))
(compose-in design (make-opacity (- 1.0 (opacity-value mask)))))
;;;; ------------------------------------------------------------------------------------------
;;;;
;;;; Compose-Over
;;;;
;;; COLOR
(defmethod compose-over ((foreground color) (background design))
(declare (ignorable background))
foreground)
;;; OPACITY
(defmethod compose-over ((foreground opacity) (background opacity))
(make-opacity
(+ (opacity-value foreground)
(* (- 1 (opacity-value foreground)) (opacity-value background)))))
(defmethod compose-over ((foreground opacity) (background color))
(make-instance 'over-compositum
:foreground foreground
:background background))
;;; UNIFORM-COMPOSITUM
(defmethod compose-over ((foreground uniform-compositum) (background uniform-compositum))
(multiple-value-bind (r g b o)
(multiple-value-call #'color-blend-function
(color-rgb (compositum-ink foreground))
(opacity-value (compositum-mask foreground))
(color-rgb (compositum-ink background))
(opacity-value (compositum-mask background)))
(make-uniform-compositum
(make-rgb-color r g b)
o)))
(defmethod compose-over ((foreground uniform-compositum) (background opacity))
(make-instance 'over-compositum
:foreground foreground
:background background))
(defmethod compose-over ((foreground uniform-compositum) (background color))
(multiple-value-bind (r g b o)
(multiple-value-call #'color-blend-function
(color-rgb (compositum-ink foreground))
(opacity-value (compositum-mask foreground))
(color-rgb background)
1)
(make-uniform-compositum
(make-rgb-color r g b)
o)))
(defmethod compose-over ((foreground opacity) (background uniform-compositum))
(multiple-value-bind (r g b o)
(multiple-value-call #'color-blend-function
(color-rgb foreground)
(color-rgb (compositum-ink background))
(opacity-value (compositum-mask background)))
(make-uniform-compositum
(make-rgb-color r g b)
o)))
;;; IN-COMPOSITUM
#+nyi
(defmethod compose-over ((foreground in-compositum) (background in-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground in-compositum) (background uniform-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground in-compositum) (background opacity))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground in-compositum) (background color))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground uniform-compositum) (background in-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground opacity) (background in-compositum))
(declare (ignorable foreground background))
)
;;; OUT-COMPOSITUM
#+nyi
(defmethod compose-over ((foreground out-compositum) (background out-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground out-compositum) (background in-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground out-compositum) (background uniform-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground out-compositum) (background opacity))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground out-compositum) (background color))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground in-compositum) (background out-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground uniform-compositum) (background out-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground color) (background out-compositum))
(declare (ignorable foreground background))
)
;;; OVER-COMPOSITUM
#+nyi
(defmethod compose-over ((foreground over-compositum) (background over-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground over-compositum) (background out-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground over-compositum) (background in-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground over-compositum) (background uniform-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground over-compositum) (background opacity))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground over-compositum) (background color))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground out-compositum) (background over-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground in-compositum) (background over-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground uniform-compositum) (background over-compositum))
(declare (ignorable foreground background))
)
#+nyi
(defmethod compose-over ((foreground opacity) (background over-compositum))
(declare (ignorable foreground background))
)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;; Comparison of designs.
(defgeneric design-equalp (design1 design2))
(defmethod design-equalp :around ((design1 t) (design2 t))
(or (eql design1 design2)
(call-next-method)))
(defmethod design-equalp ((design1 t) (design2 t))
nil)
(defmethod design-equalp ((design1 standard-color) (design2 standard-color))
(multiple-value-bind (r1 g1 b1)
(color-rgb design1)
(multiple-value-bind (r2 g2 b2)
(color-rgb design2)
(and (= r1 r2)
(= g1 g2)
(= b1 b2)))))
;;; The two default colors
(defconstant +white+ (make-named-color "white" 1.0000 1.0000 1.0000))
(defconstant +black+ (make-named-color "black" 0.0000 0.0000 0.0000))
;;; Color utilities
(defgeneric highlight-shade (ink)
(:documentation
"Produce an alternate shade of the given ink for the purpose of highlighting.
Typically the ink will be brightened, but very light inks may be darkened."))
(defmethod highlight-shade (ink) ink)
(defmethod highlight-shade ((ink (eql +background-ink+)))
+foreground-ink+)
(defmethod highlight-shade ((ink (eql +foreground-ink+)))
+background-ink+)
(defmethod highlight-shade ((ink standard-color))
(let ((brighten-factor 0.5)
(darken-factor 0.15))
(multiple-value-bind (r g b) (color-rgb ink)
(multiple-value-bind (blend-ink factor)
(if (> (- 3.0 r g b) 0.2)
(values +white+ brighten-factor)
(values +black+ darken-factor))
(compose-over (compose-in blend-ink (make-opacity factor))
ink)))))
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