,(car (list-ref coords 6))
,(cdr (list-ref coords 6))
closepath)))
- (ly:make-stencil
- `(path ,thick `(,@' ,command-list) 'round 'round #t)
- xext
- yext)))
+ (ly:make-stencil
+ `(path ,thick `(,@' ,command-list) 'round 'round #t)
+ xext
+ yext)))
(define-public (stack-stencils axis dir padding stils)
"Stack stencils @var{stils} in direction @var{axis}, @var{dir}, using
@var{padding}."
- (cond
- ((null? stils) empty-stencil)
- ((null? (cdr stils)) (car stils))
- (else (ly:stencil-combine-at-edge
- (car stils) axis dir (stack-stencils axis dir padding (cdr stils))
- padding))))
-
-(define-public (stack-stencils-padding-list axis dir padding stils)
+ (reduce
+ (lambda (next front)
+ (ly:stencil-stack front axis dir next padding))
+ empty-stencil
+ stils))
+
+(define-public (stack-stencils-padding-list axis dir paddings stils)
"Stack stencils @var{stils} in direction @var{axis}, @var{dir}, using
-a list of @var{padding}."
- (cond
- ((null? stils) empty-stencil)
- ((null? (cdr stils)) (car stils))
- (else (ly:stencil-combine-at-edge
- (car stils)
- axis dir
- (stack-stencils-padding-list axis dir (cdr padding) (cdr stils))
- (car padding)))))
+a list of @var{paddings}."
+ (if (null? stils)
+ empty-stencil
+ (fold
+ (lambda (next padding front)
+ (let ((offset (+ (- (interval-end (ly:stencil-extent front axis))
+ (interval-start (ly:stencil-extent next axis)))
+ padding)))
+ (ly:stencil-add
+ front
+ (ly:stencil-translate-axis next offset axis))))
+ (car stils)
+ (cdr stils)
+ paddings)))
(define-public (centered-stencil stencil)
"Center stencil @var{stencil} in both the X and Y directions."
(define-public (stack-lines dir padding baseline stils)
"Stack vertically with a baseline skip."
- (define result empty-stencil)
- (define last-y #f)
- (do
- ((last-stencil #f (car p))
- (p stils (cdr p)))
-
- ((null? p))
-
- (if (number? last-y)
- (begin
- (let* ((dy (max (+ (* dir (interval-bound (ly:stencil-extent last-stencil Y) dir))
- padding
- (* (- dir) (interval-bound (ly:stencil-extent (car p) Y) (- dir))))
- baseline))
- (y (+ last-y (* dir dy))))
-
-
-
- (set! result
- (ly:stencil-add result (ly:stencil-translate-axis (car p) y Y)))
- (set! last-y y)))
- (begin
- (set! last-y 0)
- (set! result (car p)))))
-
- result)
-
+ (reduce-right
+ (lambda (next back) (ly:stencil-stack next Y dir back padding baseline))
+ empty-stencil
+ (map
+ (lambda (s)
+ ;; X-empty stencils may add vertical space. A stencil that is
+ ;; merely Y-empty counts as horizontal spacing. Since we want
+ ;; those to register as lines of their own (is this a good
+ ;; idea?), we make them a separately visible line.
+ (if (and (ly:stencil-empty? s Y)
+ (not (ly:stencil-empty? s X)))
+ (ly:make-stencil (ly:stencil-expr s) (ly:stencil-extent s X) '(0 . 0))
+ s))
+ stils)))
(define-public (bracketify-stencil stil axis thick protrusion padding)
"Add brackets around @var{stil}, producing a new stencil."
(let* ((ext (ly:stencil-extent stil axis))
- (lb (ly:bracket axis ext thick protrusion))
- (rb (ly:bracket axis ext thick (- protrusion))))
+ (lb (ly:bracket axis ext thick protrusion))
+ (rb (ly:bracket axis ext thick (- protrusion))))
(set! stil
- (ly:stencil-combine-at-edge stil (other-axis axis) 1 rb padding))
+ (ly:stencil-combine-at-edge stil (other-axis axis) 1 rb padding))
(set! stil
- (ly:stencil-combine-at-edge lb (other-axis axis) 1 stil padding))
+ (ly:stencil-combine-at-edge stil (other-axis axis) -1 lb padding))
stil))
(define (make-parenthesis-stencil
- y-extent half-thickness width angularity)
+ y-extent half-thickness width angularity)
"Create a parenthesis stencil.
@var{y-extent} is the Y extent of the markup inside the parenthesis.
@var{half-thickness} is the half thickness of the parenthesis.
The higher the value of number @var{angularity},
the more angular the shape of the parenthesis."
(let* ((line-width 0.1)
- ;; Horizontal position of baseline that end points run through.
- (base-x
- (if (< width 0)
- (- width)
- 0))
+ ;; Horizontal position of baseline that end points run through.
+ (base-x
+ (if (< width 0)
+ (- width)
+ 0))
;; X value farthest from baseline on outside of curve
(outer-x (+ base-x width))
;; X extent of bezier sandwich centerline curves
(x-extent (ordered-cons base-x outer-x))
- (bottom-y (interval-start y-extent))
- (top-y (interval-end y-extent))
-
- (lower-end-point (cons base-x bottom-y))
- (upper-end-point (cons base-x top-y))
-
- (outer-control-x (+ base-x (* 4/3 width)))
- (inner-control-x (+ outer-control-x
- (if (< width 0)
- half-thickness
- (- half-thickness))))
-
- ;; Vertical distance between a control point
- ;; and the end point it connects to.
- (offset-index (- (* 0.6 angularity) 0.8))
- (lower-control-y (interval-index y-extent offset-index))
- (upper-control-y (interval-index y-extent (- offset-index)))
-
- (lower-outer-control-point
- (cons outer-control-x lower-control-y))
- (upper-outer-control-point
- (cons outer-control-x upper-control-y))
- (upper-inner-control-point
- (cons inner-control-x upper-control-y))
- (lower-inner-control-point
- (cons inner-control-x lower-control-y)))
+ (bottom-y (interval-start y-extent))
+ (top-y (interval-end y-extent))
+
+ (lower-end-point (cons base-x bottom-y))
+ (upper-end-point (cons base-x top-y))
+
+ (outer-control-x (+ base-x (* 4/3 width)))
+ (inner-control-x (+ outer-control-x
+ (if (< width 0)
+ half-thickness
+ (- half-thickness))))
+
+ ;; Vertical distance between a control point
+ ;; and the end point it connects to.
+ (offset-index (- (* 0.6 angularity) 0.8))
+ (lower-control-y (interval-index y-extent offset-index))
+ (upper-control-y (interval-index y-extent (- offset-index)))
+
+ (lower-outer-control-point
+ (cons outer-control-x lower-control-y))
+ (upper-outer-control-point
+ (cons outer-control-x upper-control-y))
+ (upper-inner-control-point
+ (cons inner-control-x upper-control-y))
+ (lower-inner-control-point
+ (cons inner-control-x lower-control-y)))
(make-bezier-sandwich-stencil
- (list
- ;; Step 4: curve through inner control points
- ;; to lower end point.
- upper-inner-control-point
- lower-inner-control-point
- lower-end-point
- ;; Step 3: move to upper end point.
- upper-end-point
- ;; Step 2: curve through outer control points
- ;; to upper end point.
- lower-outer-control-point
- upper-outer-control-point
- upper-end-point
- ;; Step 1: move to lower end point.
- lower-end-point)
- line-width
- (interval-widen x-extent (/ line-width 2))
- (interval-widen y-extent (/ line-width 2)))))
+ (list
+ ;; Step 4: curve through inner control points
+ ;; to lower end point.
+ upper-inner-control-point
+ lower-inner-control-point
+ lower-end-point
+ ;; Step 3: move to upper end point.
+ upper-end-point
+ ;; Step 2: curve through outer control points
+ ;; to upper end point.
+ lower-outer-control-point
+ upper-outer-control-point
+ upper-end-point
+ ;; Step 1: move to lower end point.
+ lower-end-point)
+ line-width
+ (interval-widen x-extent (/ line-width 2))
+ (interval-widen y-extent (/ line-width 2)))))
(define-public (parenthesize-stencil
- stencil half-thickness width angularity padding)
+ stencil half-thickness width angularity padding)
"Add parentheses around @var{stencil}, returning a new stencil."
(let* ((y-extent (ly:stencil-extent stencil Y))
- (lp (make-parenthesis-stencil
- y-extent half-thickness (- width) angularity))
- (rp (make-parenthesis-stencil
- y-extent half-thickness width angularity)))
- (set! stencil (ly:stencil-combine-at-edge lp X RIGHT stencil padding))
+ (lp (make-parenthesis-stencil
+ y-extent half-thickness (- width) angularity))
+ (rp (make-parenthesis-stencil
+ y-extent half-thickness width angularity)))
+ (set! stencil (ly:stencil-combine-at-edge stencil X LEFT lp padding))
(set! stencil (ly:stencil-combine-at-edge stencil X RIGHT rp padding))
stencil))
(let ((xext (cons (min startx endx) (max startx endx)))
(yext (cons (min starty endy) (max starty endy))))
(ly:make-stencil
- (list 'draw-line width startx starty endx endy)
- ; Since the line has rounded edges, we have to / can safely add half the
- ; width to all coordinates!
- (interval-widen xext (/ width 2))
- (interval-widen yext (/ width 2)))))
-
+ (list 'draw-line width startx starty endx endy)
+ ;; Since the line has rounded edges, we have to / can safely add half the
+ ;; width to all coordinates!
+ (interval-widen xext (/ width 2))
+ (interval-widen yext (/ width 2)))))
+
+(define-public (make-transparent-box-stencil xext yext)
+ "Make a transparent box."
+ (ly:make-stencil
+ (list 'transparent-stencil
+ (ly:stencil-expr (make-filled-box-stencil xext yext)))
+ xext yext))
(define-public (make-filled-box-stencil xext yext)
"Make a filled box."
(ly:make-stencil
- (list 'round-filled-box (- (car xext)) (cdr xext)
- (- (car yext)) (cdr yext) 0.0)
- xext yext))
+ (list 'round-filled-box (- (car xext)) (cdr xext)
+ (- (car yext)) (cdr yext) 0.0)
+ xext yext))
(define-public (make-circle-stencil radius thickness fill)
"Make a circle of radius @var{radius} and thickness @var{thickness}."
(let*
((out-radius (+ radius (/ thickness 2.0))))
- (ly:make-stencil
- (list 'circle radius thickness fill)
- (cons (- out-radius) out-radius)
- (cons (- out-radius) out-radius))))
+ (ly:make-stencil
+ (list 'circle radius thickness fill)
+ (cons (- out-radius) out-radius)
+ (cons (- out-radius) out-radius))))
(define-public (make-oval-stencil x-radius y-radius thickness fill)
"Make an oval from two Bezier curves, of x@tie{}radius @var{x-radius},
,(list 'curveto x-min y-min x-max y-min x-max 0)
,(list 'closepath)))
(command-list (fold-right append '() commands)))
- (ly:make-stencil
- `(path ,thickness `(,@',command-list) 'round 'round ,fill)
- (cons (- x-out-radius) x-out-radius)
- (cons (- y-out-radius) y-out-radius))))
+ (ly:make-stencil
+ `(path ,thickness `(,@',command-list) 'round 'round ,fill)
+ (cons (- x-out-radius) x-out-radius)
+ (cons (- y-out-radius) y-out-radius))))
(define-public
(make-partial-ellipse-stencil
- x-radius y-radius start-angle end-angle thick connect fill)
-
+ x-radius y-radius start-angle end-angle thick connect fill)
+ "Create an elliptical arc
+@var{x-radius} is the X radius of the arc.
+@var{y-radius} is the Y radius of the arc.
+@var{start-angle} is the starting angle of the arc in degrees.
+@var{end-angle} is the ending angle of the arc in degrees.
+@var{thick} is the thickness of the line.
+@var{connect} is a boolean flag indicating if the end should
+be connected to the start by a line.
+@var{fill} is a boolean flag indicating if the shape should be filled."
(define (make-radius-list x-radius y-radius)
- (apply append
- (map (lambda (adder)
- (map (lambda (quadrant)
- (cons (+ adder (car quadrant))
- (cdr quadrant)))
- `((0.0 . (,x-radius . 0.0))
- (,PI-OVER-TWO . (0.0 . ,y-radius))
- (,PI . (,(- x-radius) . 0.0))
- (,THREE-PI-OVER-TWO . (0.0 . ,(- y-radius))))))
- `(0.0 ,TWO-PI))))
+ "Makes a list of angle/radius pairs at intervals of PI/2 for
+the partial ellipse until 7*PI/2. For example, in pseudo-code:
+> (make-radius-list 2 3)\
+\n((0.0 . 2) (PI/2 . 3) (PI . -2) (3*PI/2 . -3)\
+\n(2*PI . 2) (5*PI/2 . 3) (3*PI . -2) (7*PI/2 . -3))
+"
+ (append-map
+ (lambda (adder)
+ (map (lambda (quadrant)
+ (cons (+ adder (car quadrant))
+ (cdr quadrant)))
+ `((0.0 . (,x-radius . 0.0))
+ (,PI-OVER-TWO . (0.0 . ,y-radius))
+ (,PI . (,(- x-radius) . 0.0))
+ (,THREE-PI-OVER-TWO . (0.0 . ,(- y-radius))))))
+ `(0.0 ,TWO-PI)))
(define
(insert-in-ordered-list ordering-function value inlist cutl? cutr?)
+ "Insert @var{value} in ordered list @var{inlist}. If @var{cutl?}, we
+cut away any parts of @var{inlist} before @var{value}. @var{cutr?} works
+the same way but for the right side. For example:
+> (insert-in-ordered-list < 4 '(1 2 3 6 7) #f #f)
+'(1 2 3 4 6 7)
+> (insert-in-ordered-list < 4 '(1 2 3 6 7) #t #f)
+'(4 6 7)
+> (insert-in-ordered-list < 4 '(1 2 3 6 7) #f #t)
+'(1 2 3 4)
+"
(define
(helper ordering-function value left-list right-list cutl? cutr?)
(if (null? right-list)
(append
- (if cutl? '() left-list)
- (list value)
- (if cutr? '() right-list))
+ (if cutl? '() left-list)
+ (list value)
+ (if cutr? '() right-list))
(if (ordering-function value (car right-list))
(append
- (if cutl? '() left-list)
- (list value)
- (if cutr? '() right-list))
+ (if cutl? '() left-list)
+ (list value)
+ (if cutr? '() right-list))
(helper
- ordering-function
- value
- (append left-list (list (car right-list)))
- (cdr right-list)
- cutl?
- cutr?))))
+ ordering-function
+ value
+ (append left-list (list (car right-list)))
+ (cdr right-list)
+ cutl?
+ cutr?))))
(helper ordering-function value '() inlist cutl? cutr?))
(define (ordering-function-1 a b) (car< a b))
(define (ordering-function-2 a b) (car<= a b))
(define (min-max-crawler min-max side l)
+ "Apply function @var{side} to each member of list and
+then reduce using @var{min-max}:
+> (min-max-crawler min car '((0 . 3) (-1 . 4) (1 . 2)))
+-1
+> (min-max-crawler min cdr '((0 . 3) (-1 . 4) (1 . 2)))
+2
+"
(reduce min-max
(if (eq? min-max min) 100000 -100000)
- (map (lambda (x) (side x)) l)))
+ (map side l)))
(let*
- ((x-out-radius (+ x-radius (/ thick 2.0)))
+ (;; the outside limit of the x-radius
+ (x-out-radius (+ x-radius (/ thick 2.0)))
+ ;; the outside limit of the y-radius
(y-out-radius (+ y-radius (/ thick 2.0)))
+ ;; end angle to radians
(new-end-angle (angle-0-2pi (degrees->radians end-angle)))
+ ;; length of the radius at the end angle
(end-radius (ellipse-radius x-out-radius y-out-radius new-end-angle))
+ ;; start angle to radians
(new-start-angle (angle-0-2pi (degrees->radians start-angle)))
+ ;; length of the radius at the start angle
(start-radius (ellipse-radius x-out-radius y-out-radius new-start-angle))
+ ;; points that the arc passes through at 90 degree intervals
(radius-list (make-radius-list x-out-radius y-out-radius))
+ ;; rectangular coordinates of arc endpoint
(rectangular-end-radius (polar->rectangular end-radius end-angle))
+ ;; rectangular coordinates of arc begin point
(rectangular-start-radius (polar->rectangular start-radius start-angle))
+ ;; we want the end angle to always be bigger than the start angle
+ ;; so we redefine it here just in case it is less
(new-end-angle
- (if (<= new-end-angle new-start-angle)
- (+ TWO-PI new-end-angle)
- new-end-angle))
+ (if (<= new-end-angle new-start-angle)
+ (+ TWO-PI new-end-angle)
+ new-end-angle))
+ ;; all the points that may be extrema of the arc
+ ;; this is the 90 degree points plus the beginning and end points
+ ;; we use this to calculate extents
(possible-extrema
+ (insert-in-ordered-list
+ ordering-function-2
+ (cons new-end-angle rectangular-end-radius)
(insert-in-ordered-list
- ordering-function-2
- (cons new-end-angle rectangular-end-radius)
- (insert-in-ordered-list
- ordering-function-1
- (cons new-start-angle rectangular-start-radius)
- radius-list
- #t
- #f)
- #f
- #t)))
+ ordering-function-1
+ (cons new-start-angle rectangular-start-radius)
+ radius-list
+ #t
+ #f)
+ #f
+ #t)))
(ly:make-stencil
- (list
- 'partial-ellipse
- x-radius
- y-radius
- start-angle
- end-angle
- thick
- connect
- fill)
- (cons (min-max-crawler min cadr possible-extrema)
- (min-max-crawler max cadr possible-extrema))
- (cons (min-max-crawler min cddr possible-extrema)
- (min-max-crawler max cddr possible-extrema)))))
+ (list
+ 'partial-ellipse
+ x-radius
+ y-radius
+ start-angle
+ end-angle
+ thick
+ connect
+ fill)
+ ;; we know the extrema points by crawling through the
+ ;; list of possible extrema and finding the min and max
+ ;; for x and y
+ (cons (min-max-crawler min cadr possible-extrema)
+ (min-max-crawler max cadr possible-extrema))
+ (cons (min-max-crawler min cddr possible-extrema)
+ (min-max-crawler max cddr possible-extrema)))))
+
+(define (line-part-min-max x1 x2)
+ (list (min x1 x2) (max x1 x2)))
+
+(define (bezier-part-min-max x1 x2 x3 x4)
+ ((lambda (x) (list (reduce min 10000 x) (reduce max -10000 x)))
+ (map
+ (lambda (x)
+ (+ (* x1 (expt (- 1 x) 3))
+ (+ (* 3 (* x2 (* (expt (- 1 x) 2) x)))
+ (+ (* 3 (* x3 (* (- 1 x) (expt x 2))))
+ (* x4 (expt x 3))))))
+ (if (< (+ (expt x2 2) (+ (expt x3 2) (* x1 x4)))
+ (+ (* x1 x3) (+ (* x2 x4) (* x2 x3))))
+ (list 0.0 1.0)
+ (filter
+ (lambda (x) (and (>= x 0) (<= x 1)))
+ (append
+ (list 0.0 1.0)
+ (map (lambda (op)
+ (if (not (eqv? 0.0
+ (exact->inexact (- (+ x1 (* 3 x3)) (+ x4 (* 3 x2))))))
+ ;; Zeros of the bezier curve
+ (/ (+ (- x1 (* 2 x2))
+ (op x3
+ (sqrt (- (+ (expt x2 2)
+ (+ (expt x3 2) (* x1 x4)))
+ (+ (* x1 x3)
+ (+ (* x2 x4) (* x2 x3)))))))
+ (- (+ x1 (* 3 x3)) (+ x4 (* 3 x2))))
+ ;; Apply L'hopital's rule to get the zeros if 0/0
+ (* (op 0 1)
+ (/ (/ (- x4 x3) 2)
+ (sqrt (- (+ (* x2 x2)
+ (+ (* x3 x3) (* x1 x4)))
+ (+ (* x1 x3)
+ (+ (* x2 x4) (* x2 x3)))))))))
+ (list + -))))))))
+
+(define (bezier-min-max x1 y1 x2 y2 x3 y3 x4 y4)
+ (map (lambda (x)
+ (apply bezier-part-min-max x))
+ `((,x1 ,x2 ,x3 ,x4) (,y1 ,y2 ,y3 ,y4))))
+
+(define (line-min-max x1 y1 x2 y2)
+ (map (lambda (x)
+ (apply line-part-min-max x))
+ `((,x1 ,x2) (,y1 ,y2))))
(define (path-min-max origin pointlist)
- (define (line-part-min-max x1 x2)
- (list (min x1 x2) (max x1 x2)))
-
- (define (bezier-part-min-max x1 x2 x3 x4)
- ((lambda (x) (list (reduce min 10000 x) (reduce max -10000 x)))
- (map
- (lambda (x)
- (+ (* x1 (expt (- 1 x) 3))
- (+ (* 3 (* x2 (* (expt (- 1 x) 2) x)))
- (+ (* 3 (* x3 (* (- 1 x) (expt x 2))))
- (* x4 (expt x 3))))))
- (if (< (+ (expt x2 2) (+ (expt x3 2) (* x1 x4)))
- (+ (* x1 x3) (+ (* x2 x4) (* x2 x3))))
- (list 0.0 1.0)
- (filter
- (lambda (x) (and (>= x 0) (<= x 1)))
- (append
- (list 0.0 1.0)
- (map (lambda (op)
- (if (not (eqv? 0.0
- (- (+ x1 (* 3 x3)) (+ x4 (* 3 x2)))))
- ;; Zeros of the bezier curve
- (/ (+ (- x1 (* 2 x2))
- (op x3
- (sqrt (- (+ (expt x2 2)
- (+ (expt x3 2) (* x1 x4)))
- (+ (* x1 x3)
- (+ (* x2 x4) (* x2 x3)))))))
- (- (+ x1 (* 3 x3)) (+ x4 (* 3 x2))))
- ;; Apply L'hopital's rule to get the zeros if 0/0
- (* (op 0 1)
- (/ (/ (- x4 x3) 2)
- (sqrt (- (+ (* x2 x2)
- (+ (* x3 x3) (* x1 x4)))
- (+ (* x1 x3)
- (+ (* x2 x4) (* x2 x3)))))))))
- (list + -))))))))
-
- (define (bezier-min-max x1 y1 x2 y2 x3 y3 x4 y4)
- (map (lambda (x)
- (apply bezier-part-min-max x))
- `((,x1 ,x2 ,x3 ,x4) (,y1 ,y2 ,y3 ,y4))))
-
- (define (line-min-max x1 y1 x2 y2)
- (map (lambda (x)
- (apply line-part-min-max x))
- `((,x1 ,x2) (,y1 ,y2))))
-
((lambda (x)
(list
- (reduce min +inf.0 (map caar x))
- (reduce max -inf.0 (map cadar x))
- (reduce min +inf.0 (map caadr x))
- (reduce max -inf.0 (map cadadr x))))
- (map (lambda (x)
- (if (eq? (length x) 8)
- (apply bezier-min-max x)
- (apply line-min-max x)))
- (map (lambda (x y)
- (append (list (cadr (reverse x)) (car (reverse x))) y))
- (append (list origin)
- (reverse (cdr (reverse pointlist)))) pointlist))))
+ (reduce min +inf.0 (map caar x))
+ (reduce max -inf.0 (map cadar x))
+ (reduce min +inf.0 (map caadr x))
+ (reduce max -inf.0 (map cadadr x))))
+ (map (lambda (x)
+ (if (= (length x) 8)
+ (apply bezier-min-max x)
+ (apply line-min-max x)))
+ (map (lambda (x y)
+ (append (list (cadr (reverse x)) (car (reverse x))) y))
+ (append (list origin)
+ (reverse (cdr (reverse pointlist)))) pointlist))))
(define-public (make-connected-path-stencil pointlist thickness
- x-scale y-scale connect fill)
+ x-scale y-scale connect fill)
"Make a connected path described by the list @var{pointlist}, with
thickness @var{thickness}, and scaled by @var{x-scale} in the X direction
and @var{y-scale} in the Y direction. @var{connect} and @var{fill} are
;; paths using this routine are designed to begin at point '(0 . 0)
(let* ((origin (list 0 0))
- (boundlist (path-min-max origin pointlist))
- ;; modify pointlist to scale the coordinates
- (path (map (lambda (x)
- (apply
- (if (eq? 6 (length x))
- (lambda (x1 x2 x3 x4 x5 x6)
- (list 'curveto
- (* x1 x-scale)
- (* x2 y-scale)
- (* x3 x-scale)
- (* x4 y-scale)
- (* x5 x-scale)
- (* x6 y-scale)))
- (lambda (x1 x2)
- (list 'lineto
- (* x1 x-scale)
- (* x2 y-scale))))
- x))
- pointlist))
- ;; a path must begin with a `moveto'
- (prepend-origin (apply list (cons 'moveto origin) path))
- ;; if this path is connected, add closepath to the end
- (final-path (if connect
- (append prepend-origin (list 'closepath))
- prepend-origin))
- (command-list (fold-right append '() final-path)))
- (ly:make-stencil
- `(path ,thickness
- `(,@',command-list)
- 'round
- 'round
- ,(if fill #t #f))
- (coord-translate
+ (boundlist (path-min-max origin pointlist))
+ ;; modify pointlist to scale the coordinates
+ (path (map (lambda (x)
+ (apply
+ (if (= 6 (length x))
+ (lambda (x1 x2 x3 x4 x5 x6)
+ (list 'curveto
+ (* x1 x-scale)
+ (* x2 y-scale)
+ (* x3 x-scale)
+ (* x4 y-scale)
+ (* x5 x-scale)
+ (* x6 y-scale)))
+ (lambda (x1 x2)
+ (list 'lineto
+ (* x1 x-scale)
+ (* x2 y-scale))))
+ x))
+ pointlist))
+ ;; a path must begin with a `moveto'
+ (prepend-origin (cons (cons 'moveto origin) path))
+ ;; if this path is connected, add closepath to the end
+ (final-path (if connect
+ (append prepend-origin (list '(closepath)))
+ prepend-origin))
+ (command-list (concatenate final-path)))
+ (ly:make-stencil
+ `(path ,thickness
+ `(,@',command-list)
+ 'round
+ 'round
+ ,(if fill #t #f))
+ (coord-translate
((if (< x-scale 0) reverse-interval identity)
- (cons (* x-scale (list-ref boundlist 0))
- (* x-scale (list-ref boundlist 1))))
- `(,(/ thickness -2) . ,(/ thickness 2)))
- (coord-translate
+ (cons (* x-scale (list-ref boundlist 0))
+ (* x-scale (list-ref boundlist 1))))
+ `(,(/ thickness -2) . ,(/ thickness 2)))
+ (coord-translate
((if (< y-scale 0) reverse-interval identity)
- (cons (* y-scale (list-ref boundlist 2))
- (* y-scale (list-ref boundlist 3))))
- `(,(/ thickness -2) . ,(/ thickness 2))))))
+ (cons (* y-scale (list-ref boundlist 2))
+ (* y-scale (list-ref boundlist 3))))
+ `(,(/ thickness -2) . ,(/ thickness 2))))))
(define-public (make-ellipse-stencil x-radius y-radius thickness fill)
"Make an ellipse of x@tie{}radius @var{x-radius}, y@tie{}radius
((x-out-radius (+ x-radius (/ thickness 2.0)))
(y-out-radius (+ y-radius (/ thickness 2.0))) )
- (ly:make-stencil
- (list 'ellipse x-radius y-radius thickness fill)
- (cons (- x-out-radius) x-out-radius)
- (cons (- y-out-radius) y-out-radius))))
+ (ly:make-stencil
+ (list 'ellipse x-radius y-radius thickness fill)
+ (cons (- x-out-radius) x-out-radius)
+ (cons (- y-out-radius) y-out-radius))))
(define-public (box-grob-stencil grob)
"Make a box of exactly the extents of the grob. The box precisely
encloses the contents."
(let* ((xext (ly:grob-extent grob grob 0))
- (yext (ly:grob-extent grob grob 1))
- (thick 0.01))
+ (yext (ly:grob-extent grob grob 1))
+ (thick 0.01))
(ly:stencil-add
(make-filled-box-stencil xext (cons (- (car yext) thick) (car yext)))
(define-public (box-stencil stencil thickness padding)
"Add a box around @var{stencil}, producing a new stencil."
(let* ((x-ext (interval-widen (ly:stencil-extent stencil 0) padding))
- (y-ext (interval-widen (ly:stencil-extent stencil 1) padding))
- (y-rule (make-filled-box-stencil (cons 0 thickness) y-ext))
- (x-rule (make-filled-box-stencil
- (interval-widen x-ext thickness) (cons 0 thickness))))
+ (y-ext (interval-widen (ly:stencil-extent stencil 1) padding))
+ (y-rule (make-filled-box-stencil (cons 0 thickness) y-ext))
+ (x-rule (make-filled-box-stencil
+ (interval-widen x-ext thickness) (cons 0 thickness))))
(set! stencil (ly:stencil-combine-at-edge stencil X 1 y-rule padding))
(set! stencil (ly:stencil-combine-at-edge stencil X -1 y-rule padding))
(set! stencil (ly:stencil-combine-at-edge stencil Y 1 x-rule 0.0))
(define-public (circle-stencil stencil thickness padding)
"Add a circle around @var{stencil}, producing a new stencil."
(let* ((x-ext (ly:stencil-extent stencil X))
- (y-ext (ly:stencil-extent stencil Y))
- (diameter (max (interval-length x-ext)
+ (y-ext (ly:stencil-extent stencil Y))
+ (diameter (max (interval-length x-ext)
(interval-length y-ext)))
- (radius (+ (/ diameter 2) padding thickness))
- (circle (make-circle-stencil radius thickness #f)))
+ (radius (+ (/ diameter 2) padding thickness))
+ (circle (make-circle-stencil radius thickness #f)))
(ly:stencil-add
stencil
(ly:stencil-translate circle
- (cons
- (interval-center x-ext)
- (interval-center y-ext))))))
+ (cons
+ (interval-center x-ext)
+ (interval-center y-ext))))))
(define-public (oval-stencil stencil thickness x-padding y-padding)
"Add an oval around @code{stencil}, padded by the padding pair,
producing a new stencil."
(let* ((x-ext (ly:stencil-extent stencil X))
- (y-ext (ly:stencil-extent stencil Y))
+ (y-ext (ly:stencil-extent stencil Y))
(x-length (+ (interval-length x-ext) x-padding thickness))
(y-length (+ (interval-length y-ext) y-padding thickness))
(x-radius (* 0.707 x-length) )
(y-radius (* 0.707 y-length) )
- (oval (make-oval-stencil x-radius y-radius thickness #f)))
+ (oval (make-oval-stencil x-radius y-radius thickness #f)))
(ly:stencil-add
stencil
(ly:stencil-translate oval
- (cons
- (interval-center x-ext)
- (interval-center y-ext))))))
+ (cons
+ (interval-center x-ext)
+ (interval-center y-ext))))))
(define-public (ellipse-stencil stencil thickness x-padding y-padding)
"Add an ellipse around @var{stencil}, padded by the padding pair,
producing a new stencil."
(let* ((x-ext (ly:stencil-extent stencil X))
- (y-ext (ly:stencil-extent stencil Y))
+ (y-ext (ly:stencil-extent stencil Y))
(x-length (+ (interval-length x-ext) x-padding thickness))
(y-length (+ (interval-length y-ext) y-padding thickness))
- ;(aspect-ratio (/ x-length y-length))
+ ;; (aspect-ratio (/ x-length y-length))
(x-radius (* 0.707 x-length) )
(y-radius (* 0.707 y-length) )
- ;(diameter (max (- (cdr x-ext) (car x-ext))
- ; (- (cdr y-ext) (car y-ext))))
- ;(radius (+ (/ diameter 2) padding thickness))
- (ellipse (make-ellipse-stencil x-radius y-radius thickness #f)))
+ ;; (diameter (max (- (cdr x-ext) (car x-ext))
+ ;; (- (cdr y-ext) (car y-ext))))
+ ;; radius (+ (/ diameter 2) padding thickness))
+ (ellipse (make-ellipse-stencil x-radius y-radius thickness #f)))
(ly:stencil-add
stencil
(ly:stencil-translate ellipse
- (cons
- (interval-center x-ext)
- (interval-center y-ext))))))
+ (cons
+ (interval-center x-ext)
+ (interval-center y-ext))))))
(define-public (rounded-box-stencil stencil thickness padding blot)
- "Add a rounded box around @var{stencil}, producing a new stencil."
+ "Add a rounded box around @var{stencil}, producing a new stencil."
(let* ((xext (interval-widen (ly:stencil-extent stencil 0) padding))
- (yext (interval-widen (ly:stencil-extent stencil 1) padding))
- (min-ext (min (-(cdr xext) (car xext)) (-(cdr yext) (car yext))))
- (ideal-blot (min blot (/ min-ext 2)))
- (ideal-thickness (min thickness (/ min-ext 2)))
- (outer (ly:round-filled-box
- (interval-widen xext ideal-thickness)
- (interval-widen yext ideal-thickness)
- ideal-blot))
- (inner (ly:make-stencil (list 'color (x11-color 'white)
- (ly:stencil-expr (ly:round-filled-box
- xext yext (- ideal-blot ideal-thickness)))))))
+ (yext (interval-widen (ly:stencil-extent stencil 1) padding))
+ (min-ext (min (-(cdr xext) (car xext)) (-(cdr yext) (car yext))))
+ (ideal-blot (min blot (/ min-ext 2)))
+ (ideal-thickness (min thickness (/ min-ext 2)))
+ (outer (ly:round-filled-box
+ (interval-widen xext ideal-thickness)
+ (interval-widen yext ideal-thickness)
+ ideal-blot))
+ (inner (ly:make-stencil (list 'color (x11-color 'white)
+ (ly:stencil-expr (ly:round-filled-box
+ xext yext (- ideal-blot ideal-thickness)))))))
(set! stencil (ly:stencil-add outer inner))
stencil))
(ly:stencil-add
(stencil-with-color (ly:round-filled-box x-ext y-ext 0.0)
- white)
+ white)
stencil)
))
with optional arrows of @code{max-size} on start and end controlled by
@var{start?} and @var{end?}."
(lambda (destination max-size)
- (let*
- ((e_x 1+0i)
- (e_y 0+1i)
- (distance (sqrt (+ (* (car destination) (car destination))
- (* (cdr destination) (cdr destination)))))
- (size (min max-size (/ distance 3)))
- (rotate (lambda (z ang)
- (* (make-polar 1 ang)
- z)))
- (complex-to-offset (lambda (z)
- (list (real-part z) (imag-part z))))
-
- (z-dest (+ (* e_x (car destination)) (* e_y (cdr destination))))
- (e_z (/ z-dest (magnitude z-dest)))
- (triangle-points (list
- (* size -1+0.25i)
- 0
- (* size -1-0.25i)))
- (p1s (map (lambda (z)
- (+ z-dest (rotate z (angle z-dest))))
- triangle-points))
- (p2s (map (lambda (z)
- (rotate z (angle (- z-dest))))
- triangle-points))
- (null (cons 0 0))
- (arrow-1
- (ly:make-stencil
- `(polygon (quote ,(concatenate (map complex-to-offset p1s)))
- 0.0
- #t) null null))
- (arrow-2
- (ly:make-stencil
- `(polygon (quote ,(concatenate (map complex-to-offset p2s)))
- 0.0
- #t) null null ) )
- (thickness (min (/ distance 12) 0.1))
- (shorten-line (min (/ distance 3) 0.5))
- (start (complex-to-offset (/ (* e_z shorten-line) 2)))
- (end (complex-to-offset (- z-dest (/ (* e_z shorten-line) 2))))
-
- (line (ly:make-stencil
- `(draw-line ,thickness
- ,(car start) ,(cadr start)
- ,(car end) ,(cadr end)
- )
- (cons (min 0 (car destination))
- (min 0 (cdr destination)))
- (cons (max 0 (car destination))
- (max 0 (cdr destination)))))
-
- (result
- (ly:stencil-add
+ (let*
+ ((e_x 1+0i)
+ (e_y 0+1i)
+ (distance (sqrt (+ (* (car destination) (car destination))
+ (* (cdr destination) (cdr destination)))))
+ (size (min max-size (/ distance 3)))
+ (rotate (lambda (z ang)
+ (* (make-polar 1 ang)
+ z)))
+ (complex-to-offset (lambda (z)
+ (list (real-part z) (imag-part z))))
+
+ (z-dest (+ (* e_x (car destination)) (* e_y (cdr destination))))
+ (e_z (/ z-dest (magnitude z-dest)))
+ (triangle-points (list
+ (* size -1+0.25i)
+ 0
+ (* size -1-0.25i)))
+ (p1s (map (lambda (z)
+ (+ z-dest (rotate z (angle z-dest))))
+ triangle-points))
+ (p2s (map (lambda (z)
+ (rotate z (angle (- z-dest))))
+ triangle-points))
+ (null (cons 0 0))
+ (arrow-1
+ (ly:make-stencil
+ `(polygon (quote ,(append-map complex-to-offset p1s))
+ 0.0
+ #t) null null))
+ (arrow-2
+ (ly:make-stencil
+ `(polygon (quote ,(append-map complex-to-offset p2s))
+ 0.0
+ #t) null null ) )
+ (thickness (min (/ distance 12) 0.1))
+ (shorten-line (min (/ distance 3) 0.5))
+ (start (complex-to-offset (/ (* e_z shorten-line) 2)))
+ (end (complex-to-offset (- z-dest (/ (* e_z shorten-line) 2))))
+
+ (line (ly:make-stencil
+ `(draw-line ,thickness
+ ,(car start) ,(cadr start)
+ ,(car end) ,(cadr end)
+ )
+ (cons (min 0 (car destination))
+ (min 0 (cdr destination)))
+ (cons (max 0 (car destination))
+ (max 0 (cdr destination)))))
+
+ (result
+ (ly:stencil-add
(if start? arrow-2 empty-stencil)
(if end? arrow-1 empty-stencil)
line)))
- result)))
+ result)))
(define-public dimension-arrows (arrow-stencil-maker #t #t))
(define*-public (annotate-y-interval layout name extent is-length
#:key (color darkblue))
(let ((text-props (cons '((font-size . -3)
- (font-family . typewriter))
- (layout-extract-page-properties layout)))
- (annotation #f))
+ (font-family . typewriter))
+ (layout-extract-page-properties layout)))
+ (annotation #f))
(define (center-stencil-on-extent stil)
(ly:stencil-translate (ly:stencil-aligned-to stil Y CENTER)
(cons 0 (interval-center extent))))
;; do something sensible for 0,0 intervals.
(set! extent (interval-widen extent 0.001))
(if (not (interval-sane? extent))
- (set! annotation (interpret-markup
- layout text-props
- (make-simple-markup (simple-format #f "~a: NaN/inf" name))))
- (let ((text-stencil (interpret-markup
- layout text-props
+ (set! annotation (interpret-markup
+ layout text-props
+ (make-simple-markup (simple-format #f "~a: NaN/inf" name))))
+ (let ((text-stencil (interpret-markup
+ layout text-props
(markup #:whiteout #:simple name)))
(dim-stencil (interpret-markup
layout text-props
(ly:format "~$" (interval-length extent)))
(else
(ly:format "(~$,~$)"
- (car extent) (cdr extent)))))))
- (arrows (ly:stencil-translate-axis
- (dimension-arrows (cons 0 (interval-length extent)) 1.0)
- (interval-start extent) Y)))
- (set! annotation
+ (car extent) (cdr extent)))))))
+ (arrows (ly:stencil-translate-axis
+ (dimension-arrows (cons 0 (interval-length extent)) 1.0)
+ (interval-start extent) Y)))
+ (set! annotation
(center-stencil-on-extent text-stencil))
- (set! annotation
- (ly:stencil-combine-at-edge arrows X RIGHT annotation 0.5))
- (set! annotation
- (ly:stencil-combine-at-edge annotation X LEFT
+ (set! annotation
+ (ly:stencil-combine-at-edge arrows X RIGHT annotation 0.5))
+ (set! annotation
+ (ly:stencil-combine-at-edge annotation X LEFT
(center-stencil-on-extent dim-stencil)
0.5))
- (set! annotation
- (stencil-with-color annotation color))))
+ (set! annotation
+ (stencil-with-color annotation color))))
annotation))
;; TODO: figure out how to annotate padding nicely
;; TODO: emphasize either padding or min-dist depending on which constraint was active
(define*-public (annotate-spacing-spec layout spacing-spec start-Y-offset next-staff-Y
- #:key (base-color blue))
- (let* ((get-spacing-var (lambda (sym) (assoc-get sym spacing-spec 0.0)))
- (space (get-spacing-var 'basic-distance))
- (padding (get-spacing-var 'padding))
- (min-dist (get-spacing-var 'minimum-distance))
- (contrast-color (append (cdr base-color) (list (car base-color))))
- (min-dist-blocks (<= (- start-Y-offset min-dist) next-staff-Y))
- (min-dist-color (if min-dist-blocks contrast-color base-color))
- (basic-annotation (annotate-y-interval layout
- "basic-dist"
- (cons (- start-Y-offset space) start-Y-offset)
- #t
- #:color (map (lambda (x) (* x 0.25)) base-color)))
- (min-annotation (annotate-y-interval layout
- "min-dist"
- (cons (- start-Y-offset min-dist) start-Y-offset)
- #t
- #:color min-dist-color))
- (extra-annotation (annotate-y-interval layout
- "extra dist"
- (cons next-staff-Y (- start-Y-offset min-dist))
- #t
- #:color (map (lambda (x) (* x 0.5)) min-dist-color))))
+ #:key (base-color blue))
+ (let* ((get-spacing-var (lambda (sym) (assoc-get sym spacing-spec 0.0)))
+ (space (get-spacing-var 'basic-distance))
+ (padding (get-spacing-var 'padding))
+ (min-dist (get-spacing-var 'minimum-distance))
+ (contrast-color (append (cdr base-color) (list (car base-color))))
+ (min-dist-blocks (<= (- start-Y-offset min-dist) next-staff-Y))
+ (min-dist-color (if min-dist-blocks contrast-color base-color))
+ (basic-annotation (annotate-y-interval layout
+ "basic-dist"
+ (cons (- start-Y-offset space) start-Y-offset)
+ #t
+ #:color (map (lambda (x) (* x 0.25)) base-color)))
+ (min-annotation (annotate-y-interval layout
+ "min-dist"
+ (cons (- start-Y-offset min-dist) start-Y-offset)
+ #t
+ #:color min-dist-color))
+ (extra-annotation (annotate-y-interval layout
+ "extra dist"
+ (cons next-staff-Y (- start-Y-offset min-dist))
+ #t
+ #:color (map (lambda (x) (* x 0.5)) min-dist-color))))
(stack-stencils X RIGHT 0.0
- (list
- basic-annotation
- (if min-dist-blocks
- min-annotation
- (ly:stencil-add min-annotation extra-annotation))))))
+ (list
+ basic-annotation
+ (if min-dist-blocks
+ min-annotation
+ (ly:stencil-add min-annotation extra-annotation))))))
(define-public (eps-file->stencil axis size file-name)
(let*
((contents (ly:gulp-file file-name))
(bbox (get-postscript-bbox (car (string-split contents #\nul))))
(bbox-size (if (= axis X)
- (- (list-ref bbox 2) (list-ref bbox 0))
- (- (list-ref bbox 3) (list-ref bbox 1))
- ))
+ (- (list-ref bbox 2) (list-ref bbox 0))
+ (- (list-ref bbox 3) (list-ref bbox 1))
+ ))
(factor (if (< 0 bbox-size)
- (exact->inexact (/ size bbox-size))
- 0))
+ (exact->inexact (/ size bbox-size))
+ 0))
(scaled-bbox
- (map (lambda (x) (* factor x)) bbox))
- ; We need to shift the whole eps to (0,0), otherwise it will appear
- ; displaced in lilypond (displacement will depend on the scaling!)
+ (map (lambda (x) (* factor x)) bbox))
+ ;; We need to shift the whole eps to (0,0), otherwise it will appear
+ ;; displaced in lilypond (displacement will depend on the scaling!)
(translate-string (ly:format "~a ~a translate" (- (list-ref bbox 0)) (- (list-ref bbox 1))))
(clip-rect-string (ly:format
- "~a ~a ~a ~a rectclip"
- (list-ref bbox 0)
- (list-ref bbox 1)
- (- (list-ref bbox 2) (list-ref bbox 0))
- (- (list-ref bbox 3) (list-ref bbox 1)))))
+ "~a ~a ~a ~a rectclip"
+ (list-ref bbox 0)
+ (list-ref bbox 1)
+ (- (list-ref bbox 2) (list-ref bbox 0))
+ (- (list-ref bbox 3) (list-ref bbox 1)))))
(if bbox
- (ly:make-stencil
- (list
- 'embedded-ps
- (string-append
- (ly:format
- "
+ (ly:make-stencil
+ (list
+ 'embedded-ps
+ (string-append
+ (ly:format
+ "
gsave
currentpoint translate
BeginEPSF
%%BeginDocument: ~a
" factor translate-string clip-rect-string
- file-name
- )
- contents
- "%%EndDocument
+file-name
+)
+ contents
+ "%%EndDocument
EndEPSF
grestore
"))
- ; Stencil starts at (0,0), since we have shifted the eps, and its
- ; size is exactly the size of the scaled bounding box
- (cons 0 (- (list-ref scaled-bbox 2) (list-ref scaled-bbox 0)))
- (cons 0 (- (list-ref scaled-bbox 3) (list-ref scaled-bbox 1))))
+ ;; Stencil starts at (0,0), since we have shifted the eps, and its
+ ;; size is exactly the size of the scaled bounding box
+ (cons 0 (- (list-ref scaled-bbox 2) (list-ref scaled-bbox 0)))
+ (cons 0 (- (list-ref scaled-bbox 3) (list-ref scaled-bbox 1))))
- (ly:make-stencil "" '(0 . 0) '(0 . 0)))
+ (ly:make-stencil "" '(0 . 0) '(0 . 0)))
))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(define-public (write-system-signatures basename paper-systems count)
(if (pair? paper-systems)
(begin
- (let*
- ((outname (simple-format #f "~a-~a.signature" basename count)) )
+ (let*
+ ((outname (simple-format #f "~a-~a.signature" basename count)) )
- (ly:message "Writing ~a" outname)
- (write-system-signature outname (car paper-systems))
- (write-system-signatures basename (cdr paper-systems) (1+ count))))))
+ (ly:message "Writing ~a" outname)
+ (write-system-signature outname (car paper-systems))
+ (write-system-signatures basename (cdr paper-systems) (1+ count))))))
(use-modules (scm paper-system))
(define-public (write-system-signature filename paper-system)
((float? expr) #f)
((ly:font-metric? expr) (ly:font-name expr))
((pair? expr) (cons (strip-floats (car expr))
- (strip-floats (cdr expr))))
+ (strip-floats (cdr expr))))
(else expr)))
(define (fold-false-pairs expr)
"Try to remove lists of #f as much as possible."
(if (pair? expr)
- (let*
- ((first (car expr))
- (rest (fold-false-pairs (cdr expr))))
+ (let*
+ ((first (car expr))
+ (rest (fold-false-pairs (cdr expr))))
- (if first
- (cons (fold-false-pairs first) rest)
- rest))
- expr))
+ (if first
+ (cons (fold-false-pairs first) rest)
+ rest))
+ expr))
(define (raw-string expr)
"escape quotes and slashes for python consumption"
(define (raw-pair expr)
(simple-format #f "~a ~a"
- (car expr) (cdr expr)))
+ (car expr) (cdr expr)))
(define (found-grob expr)
(let*
- ((grob (car expr))
- (rest (cdr expr))
- (collected '())
- (cause (event-cause grob))
- (input (if (ly:stream-event? cause) (ly:event-property cause 'origin) #f))
- (location (if (ly:input-location? input) (ly:input-file-line-char-column input) '()))
-
- ;; todo: use stencil extent if available.
- (x-ext (ly:grob-extent grob system-grob X))
- (y-ext (ly:grob-extent grob system-grob Y))
- (expression-skeleton
- (if compare-expressions
- (interpret-for-signature
- #f (lambda (e)
- (set! collected (cons e collected)))
- rest)
- "")))
+ ((grob (car expr))
+ (rest (cdr expr))
+ (collected '())
+ (cause (event-cause grob))
+ (input (if (ly:stream-event? cause) (ly:event-property cause 'origin) #f))
+ (location (if (ly:input-location? input) (ly:input-file-line-char-column input) '()))
+
+ ;; todo: use stencil extent if available.
+ (x-ext (ly:grob-extent grob system-grob X))
+ (y-ext (ly:grob-extent grob system-grob Y))
+ (expression-skeleton
+ (if compare-expressions
+ (interpret-for-signature
+ #f (lambda (e)
+ (set! collected (cons e collected)))
+ rest)
+ "")))
(simple-format output
- "~a@~a@~a@~a@~a\n"
- (cdr (assq 'name (ly:grob-property grob 'meta) ))
- (raw-string location)
- (raw-pair (if (interval-empty? x-ext) '(1 . -1) x-ext))
- (raw-pair (if (interval-empty? y-ext) '(1 . -1) y-ext))
- (raw-string collected))
+ "~a@~a@~a@~a@~a\n"
+ (cdr (assq 'name (ly:grob-property grob 'meta) ))
+ (raw-string location)
+ (raw-pair (if (interval-empty? x-ext) '(1 . -1) x-ext))
+ (raw-pair (if (interval-empty? y-ext) '(1 . -1) y-ext))
+ (raw-string collected))
))
(define (interpret-for-signature escape collect expr)
(define (interpret expr)
(let*
- ((head (if (pair? expr)
- (car expr)
- #f)))
-
- (cond
- ((eq? head 'grob-cause) (escape (cdr expr)))
- ((eq? head 'color) (interpret (caddr expr)))
- ((eq? head 'rotate-stencil) (interpret (caddr expr)))
- ((eq? head 'translate-stencil) (interpret (caddr expr)))
- ((eq? head 'combine-stencil)
- (for-each (lambda (e) (interpret e)) (cdr expr)))
- (else
- (collect (fold-false-pairs (strip-floats expr))))
-
- )))
+ ((head (if (pair? expr)
+ (car expr)
+ #f)))
+
+ (cond
+ ((eq? head 'grob-cause) (escape (cdr expr)))
+ ((eq? head 'color) (interpret (caddr expr)))
+ ((eq? head 'rotate-stencil) (interpret (caddr expr)))
+ ((eq? head 'translate-stencil) (interpret (caddr expr)))
+ ((eq? head 'combine-stencil)
+ (for-each (lambda (e) (interpret e)) (cdr expr)))
+ (else
+ (collect (fold-false-pairs (strip-floats expr))))
+
+ )))
(interpret expr))
(if (ly:grob? system-grob)
(begin
- (display (simple-format #f "# Output signature\n# Generated by LilyPond ~a\n" (lilypond-version))
- output)
- (interpret-for-signature found-grob (lambda (x) #f)
- (ly:stencil-expr
- (paper-system-stencil paper-system)))))
+ (display (simple-format #f "# Output signature\n# Generated by LilyPond ~a\n" (lilypond-version))
+ output)
+ (interpret-for-signature found-grob (lambda (x) #f)
+ (ly:stencil-expr
+ (paper-system-stencil paper-system)))))
;; should be superfluous, but leaking "too many open files"?
(close-port output))
-