1
#t))
+(define-public (make-bow-stencil
+ start stop thickness angularity bow-height orientation)
+ "Create a bow stencil.
+It starts at point @var{start}, ends at point @var{stop}.
+@var{thickness} is the thickness of the bow.
+The higher the value of number @var{angularity}, the more angular the shape of
+the bow.
+@var{bow-height} determines the height of the bow.
+@var{orientation} determines, whether the bow is concave or convex.
+Both variables are supplied to support independent usage.
+
+Done by calculating a horizontal unit-bow first, then moving all control-points
+to the correct positions.
+Limitation: s-curves are currently not supported.
+"
+
+;;;; Coding steps:
+;;;; (1) calculate control-points for a "unit"-bow from '(0 . 0) to '(1 . 0)
+;;;; user settable `bow-height' and `thickness' are scaled down.
+;;;; (2) move control-points to match `start' and `stop'
+
+ (let* (;; we use a fixed line-width as border for different behaviour
+ ;; for larger and (very) small lengths
+ (line-width 0.1)
+ ;; `start'-`stop' distances
+ (dx (- (car stop) (car start)))
+ (dy (- (cdr stop) (cdr start)))
+ (length-to-print (magnitude (make-rectangular dx dy))))
+
+ (if (= 0 length-to-print)
+ empty-stencil
+ (let* (
+ ;;;; (1) calculate control-points for the horizontal unit-bow,
+ ;; y-values for 2nd/3rd control-points
+ (outer-control
+ (* 4/3 (sign orientation) (/ bow-height length-to-print)))
+ (inner-control
+ (* (sign orientation)
+ (- (abs outer-control) (/ thickness length-to-print))))
+ ;; x-values for 2nd/3rd control-points depending on `angularity'
+ (offset-index
+ (- (* 0.6 angularity) 0.8))
+ (left-control
+ (+ 0.1 (* 0.3 angularity)))
+ (right-control
+ (- 1 left-control))
+ ;; defining 2nd and 3rd outer control-points
+ (left-outer-control-point
+ (cons left-control outer-control))
+ (right-outer-control-point
+ (cons right-control outer-control))
+ ;; defining 2nd and 3rd inner control-points
+ (left-inner-control-point
+ (cons left-control inner-control))
+ (right-inner-control-point
+ (cons right-control inner-control))
+ (coord-list
+ (list
+ '(0 . 0)
+ left-outer-control-point
+ right-outer-control-point
+ '(1 . 0)
+ right-inner-control-point
+ left-inner-control-point))
+ ;;;; (2) move control-points to match `start' and `stop'
+ (moved-coord-list
+ (map
+ (lambda (p)
+ (cons
+ (+ (car start) (- (* (car p) dx) (* (cdr p) dy)))
+ (+ (cdr start) (+ (* (car p) dy) (* (cdr p) dx)))))
+ coord-list)))
+
+ ;; final stencil
+ (make-bezier-sandwich-stencil
+ moved-coord-list
+ (min (* 2 thickness) line-width))))))
+
+(define-public (make-tie-stencil start stop thickness orientation)
+ (let* (;; For usage in text we choose a little less `height-limit'
+ ;; than the default for `Tie'
+ (height-limit 0.7)
+ (ratio 0.33)
+ ;; taken from bezier-bow.cc
+ (F0_1
+ (lambda (x) (* (/ 2 PI) (atan (* PI x 0.5)))))
+ (slur-height
+ (lambda (w h_inf r_0) (F0_1 (* (/ (* w r_0) h_inf) h_inf))))
+ (width (abs (- (car start) (car stop))))
+ (angularity 0.5)
+ (height (slur-height width height-limit ratio)))
+ (make-bow-stencil start stop thickness angularity height orientation)))
+
(define-public (stack-stencils axis dir padding stils)
"Stack stencils @var{stils} in direction @var{axis}, @var{dir}, using
@var{padding}."
stil))
(define (make-parenthesis-stencil
- y-extent half-thickness width angularity)
+ y-extent thickness width angularity orientation)
"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.
@var{width} is the width of a parenthesis.
+@var{orientation} is the orientation of a 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))
- ;; 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)))
- (ly:make-stencil
- (ly:stencil-expr
- (make-bezier-sandwich-stencil
- (list
- ;; Step 1: move to lower end point.
- lower-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 3: curve through inner control points
- ;; to lower end point.
- upper-inner-control-point
- lower-inner-control-point)
- (min (* 2 half-thickness) line-width)))
- (interval-widen x-extent (/ line-width 2))
- (interval-widen y-extent (/ line-width 2)))))
+ (let* ((start (cons 0 (car y-extent)))
+ (stop (cons 0 (cdr y-extent)))
+ (line-width 0.1)
+ (bow-stil
+ (make-bow-stencil
+ start stop thickness angularity width orientation))
+ (x-extent (ly:stencil-extent bow-stil X)))
+ (ly:make-stencil
+ (ly:stencil-expr bow-stil)
+ (interval-widen x-extent (/ line-width 2))
+ (interval-widen y-extent (/ line-width 2)))))
(define-public (parenthesize-stencil
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))
+ y-extent half-thickness width angularity 1))
(rp (make-parenthesis-stencil
- y-extent half-thickness width angularity)))
+ y-extent half-thickness width angularity -1)))
(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))
(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))
+ (ly:stencil-outline empty-stencil (make-filled-box-stencil xext yext)))
(define-public (make-filled-box-stencil xext yext)
"Make a filled box."
replaced-stil))
(define-public (stencil-with-color stencil color)
- (ly:make-stencil
- (list 'color color (ly:stencil-expr stencil))
- (ly:stencil-extent stencil X)
- (ly:stencil-extent stencil Y)))
-
-(define*-public (stencil-whiteout
+ (if (color? color)
+ (ly:make-stencil
+ (list 'color color (ly:stencil-expr stencil))
+ (ly:stencil-extent stencil X)
+ (ly:stencil-extent stencil Y))
+ stencil))
+
+(define*-public (stencil-whiteout-outline
stil #:optional (thickness 0.3) (color white)
(angle-increments 16) (radial-increments 1))
"This function works by creating a series of white or @var{color}
stencils radially offset from the original stencil with angles from
0 to 2*pi, at an increment of @code{angle-inc}, and with radii
from @code{radial-inc} to @var{thickness}. @var{thickness} is how big
-the white outline is in staff-spaces. @var{radial-increments} is how
-many copies of the white stencil we make on our way out to thickness.
-@var{angle-increments} is how many copies of the white stencil
-we make between 0 and 2*pi."
+the white outline is, as a multiple of line-thickness.
+@var{radial-increments} is how many copies of the white stencil we make
+on our way out to thickness. @var{angle-increments} is how many copies
+of the white stencil we make between 0 and 2*pi."
(if (or (not (positive? angle-increments))
(not (positive? radial-increments)))
(begin
(ly:warning "Both angle-increments and radial-increments must be positive numbers.")
stil)
- (let* ((2pi 6.283185307)
- (angle-inc (/ 2pi angle-increments))
+ (let* ((angle-inc (/ 360 angle-increments))
(radial-inc (/ thickness radial-increments)))
(define (circle-plot ang dec radius original-stil new-stil)
- ;; ang (angle) and dec (decrement) are in radians, not degrees
+ ;; ang (angle) and dec (decrement) are in degrees, not radians
(if (<= ang 0)
new-stil
(circle-plot (- ang dec) dec radius original-stil
(ly:stencil-add
new-stil
(ly:stencil-translate original-stil
- (cons
- (* radius (cos ang))
- (* radius (sin ang))))))))
+ (ly:directed ang radius))))))
(define (radial-plot radius original-stil new-stil)
(if (<= radius 0)
(radial-plot
(- radius radial-inc)
original-stil
- (circle-plot 2pi angle-inc
+ (circle-plot 360 angle-inc
radius original-stil empty-stencil)))))
(let ((whiteout-expr
`(delay-stencil-evaluation ,(delay whiteout-expr)))
stil)))))
-(define*-public (stencil-whiteout-box stencil
+(define*-public (stencil-whiteout-box stil
#:optional (thickness 0) (blot 0) (color white))
- "@var{thickness} is how far in staff-spaces the white outline
-extends past the extents of @var{stencil}."
+ "@var{thickness} is how far, as a multiple of line-thickness,
+the white outline extends past the extents of stencil @var{stil}."
(let*
- ((x-ext (interval-widen (ly:stencil-extent stencil X) thickness))
- (y-ext (interval-widen (ly:stencil-extent stencil Y) thickness)))
+ ((x-ext (interval-widen (ly:stencil-extent stil X) thickness))
+ (y-ext (interval-widen (ly:stencil-extent stil Y) thickness)))
(ly:stencil-add
(stencil-with-color (ly:round-filled-box x-ext y-ext blot) color)
- stencil)))
+ stil)))
+
+(define*-public (stencil-whiteout stil
+ #:optional style thickness (line-thickness 0.1))
+ "@var{style}, @var{thickness} and @var{line-thickness} are optional
+arguments. If set, @var{style} determines the shape of the white
+background. Given @code{'outline} the white background is produced
+by @code{stencil-whiteout-outline}, given @code{'rounded-box} it is
+produced by @code{stencil-whiteout-box} with rounded corners, given
+other arguments (e.g. @code{'box}) or when unspecified it defaults to
+@code{stencil-whiteout-box} with square corners. If @var{thickness} is
+specified it determines how far, as a multiple of @var{line-thickness},
+the white background extends past the extents of stencil @var{stil}. If
+@var{thickness} has not been specified, an appropriate default is chosen
+based on @var{style}."
+ (let ((thick (* line-thickness
+ (if (number? thickness)
+ thickness
+ (cond
+ ((eq? style 'outline) 3)
+ ((eq? style 'rounded-box) 3)
+ (else 0))))))
+ (cond
+ ((eq? style 'special) stil)
+ ((eq? style 'outline) (stencil-whiteout-outline stil thick))
+ ((eq? style 'rounded-box) (stencil-whiteout-box stil thick (* 2 thick)))
+ (else (stencil-whiteout-box stil thick)))))
(define-public (arrow-stencil-maker start? end?)
"Return a function drawing a line from current point to @code{destination},
(make-simple-markup (simple-format #f "~a: NaN/inf" name))))
(let ((text-stencil (interpret-markup
layout text-props
- (markup #:whiteout-box #:simple name)))
+ (markup #:whiteout #:simple name)))
(dim-stencil (interpret-markup
layout text-props
- (markup #:whiteout-box
+ (markup #:whiteout
#:simple (cond
((interval-empty? extent)
"empty")
((eq? head 'color) (interpret (caddr expr)))
((eq? head 'rotate-stencil) (interpret (caddr expr)))
((eq? head 'translate-stencil) (interpret (caddr expr)))
+ ;; for signatures, we indeed want the _outline_ rather than
+ ;; the expression interpreted. Right?
+ ((eq? head 'with-outline) (interpret (cadr expr)))
((eq? head 'combine-stencil)
- (for-each (lambda (e) (interpret e)) (cdr expr)))
+ (for-each interpret (cdr expr)))
(else
(collect (fold-false-pairs (strip-floats expr))))