;;;; This file is part of LilyPond, the GNU music typesetter. ;;;; ;;;; Copyright (C) 2000--2015 Han-Wen Nienhuys ;;;; Jan Nieuwenhuizen ;;;; ;;;; LilyPond is free software: you can redistribute it and/or modify ;;;; it under the terms of the GNU General Public License as published by ;;;; the Free Software Foundation, either version 3 of the License, or ;;;; (at your option) any later version. ;;;; ;;;; LilyPond 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 General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU General Public License ;;;; along with LilyPond. If not, see . ;;; ;;; Markup commands and markup-list commands definitions. ;;; ;;; Markup commands which are part of LilyPond, are defined ;;; in the (lily) module, which is the current module in this file, ;;; using the `define-markup-command' macro. ;;; ;;; Usage: ;;; ;;; (define-markup-command (command-name layout props args...) ;;; args-signature ;;; [ #:category category ] ;;; [ #:properties property-bindings ] ;;; documentation-string ;;; ..body..) ;;; ;;; with: ;;; command-name ;;; the name of the markup command ;;; ;;; layout and props ;;; arguments that are automatically passed to the command when it ;;; is interpreted. ;;; `layout' is an output def, which properties can be accessed ;;; using `ly:output-def-lookup'. ;;; `props' is a list of property settings which can be accessed ;;; using `chain-assoc-get' (more on that below) ;;; ;;; args... ;;; the command arguments. ;;; There is no limitation on the order of command arguments. ;;; However, markup functions taking a markup as their last ;;; argument are somewhat special as you can apply them to a ;;; markup list, and the result is a markup list where the ;;; markup function (with the specified leading arguments) has ;;; been applied to every element of the original markup list. ;;; ;;; Since replicating the leading arguments for applying a ;;; markup function to a markup list is cheap mostly for ;;; Scheme arguments, you avoid performance pitfalls by just ;;; using Scheme arguments for the leading arguments of markup ;;; functions that take a markup as their last argument. ;;; ;;; args-signature ;;; the arguments signature, i.e., a list of type predicates which ;;; are used to type check the arguments, and also to define the general ;;; argument types (markup, markup-list, scheme) that the command is ;;; expecting. ;;; For instance, if a command expects a number, then a markup, the ;;; signature would be: (number? markup?) ;;; ;;; category ;;; for documentation purpose, builtin markup commands are grouped by ;;; category. This can be any symbol. When documentation is generated, ;;; the symbol is converted to a capitalized string, where hyphens are ;;; replaced by spaces. ;;; ;;; property-bindings ;;; this is used both for documentation generation, and to ease ;;; programming the command itself. It is list of ;;; (property-name default-value) ;;; or (property-name) ;;; elements. Each property is looked-up in the `props' argument, and ;;; the symbol naming the property is bound to its value. ;;; When the property is not found in `props', then the symbol is bound ;;; to the given default value. When no default value is given, #f is ;;; used instead. ;;; Thus, using the following property bindings: ;;; ((thickness 0.1) ;;; (font-size 0)) ;;; is equivalent to writing: ;;; (let ((thickness (chain-assoc-get 'thickness props 0.1)) ;;; (font-size (chain-assoc-get 'font-size props 0))) ;;; ..body..) ;;; When a command `B' internally calls an other command `A', it may ;;; desirable to see in `B' documentation all the properties and ;;; default values used by `A'. In that case, add `A-markup' to the ;;; property-bindings of B. (This is used when generating ;;; documentation, but won't create bindings.) ;;; ;;; documentation-string ;;; the command documentation string (used to generate manuals) ;;; ;;; body ;;; the command body. The function is supposed to return a stencil. ;;; ;;; Each markup command definition shall have a documentation string ;;; with description, syntax and example. (use-modules (ice-9 regex)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; utility functions ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-public empty-stencil (ly:make-stencil '() empty-interval empty-interval)) (define-public point-stencil (ly:make-stencil "" '(0 . 0) '(0 . 0))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; line has to come early since it is often used implicitly from the ;; markup macro since \markup { a b c } -> \markup \line { a b c } ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (line layout props args) (markup-list?) #:category align #:properties ((word-space) (text-direction RIGHT)) "Put @var{args} in a horizontal line. The property @code{word-space} determines the space between markups in @var{args}. @lilypond[verbatim,quote] \\markup { \\line { one two three } } @end lilypond" (let ((stencils (interpret-markup-list layout props args))) (if (= text-direction LEFT) (set! stencils (reverse stencils))) (stack-stencil-line word-space stencils))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; geometric shapes ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (draw-line layout props dest) (number-pair?) #:category graphic #:properties ((thickness 1)) " @cindex drawing lines within text A simple line. @lilypond[verbatim,quote] \\markup { \\draw-line #'(4 . 4) \\override #'(thickness . 5) \\draw-line #'(-3 . 0) } @end lilypond" (let ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (x (car dest)) (y (cdr dest))) (make-line-stencil th 0 0 x y))) (define-markup-command (draw-dashed-line layout props dest) (number-pair?) #:category graphic #:properties ((thickness 1) (on 1) (off 1) (phase 0) (full-length #t)) " @cindex drawing dashed lines within text A dashed line. If @code{full-length} is set to #t (default) the dashed-line extends to the whole length given by @var{dest}, without white space at beginning or end. @code{off} will then be altered to fit. To insist on the given (or default) values of @code{on}, @code{off} use @code{\\override #'(full-length . #f)} Manual settings for @code{on},@code{off} and @code{phase} are possible. @lilypond[verbatim,quote] \\markup { \\draw-dashed-line #'(5.1 . 2.3) \\override #'(on . 0.3) \\override #'(off . 0.5) \\draw-dashed-line #'(5.1 . 2.3) } @end lilypond" (let* ((line-thickness (ly:output-def-lookup layout 'line-thickness)) ;; Calculate the thickness to be used. (th (* line-thickness thickness)) (half-thick (/ th 2)) ;; Get the extensions in x- and y-direction. (x (car dest)) (y (cdr dest)) ;; Calculate the length of the dashed line. (line-length (sqrt (+ (expt x 2) (expt y 2))))) (if (and full-length (not (= (+ on off) 0))) (begin ;; Add double-thickness to avoid overlapping. (set! off (+ (* 2 th) off)) (let* (;; Make a guess how often the off/on-pair should be printed ;; after the initial `on´. ;; Assume a minimum of 1 to avoid division by zero. (guess (max 1 (round (/ (- line-length on) (+ off on))))) ;; Not sure about the value or why corr is necessary at all, ;; but it seems to be necessary. (corr (if (= on 0) (/ line-thickness 10) 0)) ;; Calculate a new value for off to fit the ;; line-length. (new-off (/ (- line-length corr (* (1+ guess) on)) guess)) ) (cond ;; Settings for (= on 0). Resulting in a dotted line. ;; If line-length isn't shorter than `th´, change the given ;; value for `off´ to fit the line-length. ((and (= on 0) (< th line-length)) (set! off new-off)) ;; If the line-length is shorter than `th´, it makes no ;; sense to adjust `off´. The rounded edges of the lines ;; would prevent any nice output. ;; Do nothing. ;; This will result in a single dot for very short lines. ((and (= on 0) (>= th line-length)) #f) ;; Settings for (not (= on 0)). Resulting in a dashed line. ;; If line-length isn't shorter than one go of on-off-on, ;; change the given value for `off´ to fit the line-length. ((< (+ (* 2 on) off) line-length) (set! off new-off)) ;; If the line-length is too short, but greater than ;; (* 4 th) set on/off to (/ line-length 3) ((< (* 4 th) line-length) (set! on (/ line-length 3)) (set! off (/ line-length 3))) ;; If the line-length is shorter than (* 4 th), it makes ;; no sense trying to adjust on/off. The rounded edges of ;; the lines would prevent any nice output. ;; Simply set `on´ to line-length. (else (set! on line-length)))))) ;; If `on´ or `off´ is negative, or the sum of `on' and `off' equals zero a ;; ghostscript-error occurs while calling ;; (ly:make-stencil (list 'dashed-line th on off x y phase) x-ext y-ext) ;; Better be paranoid. (if (or (= (+ on off) 0) (negative? on) (negative? off)) (begin (ly:warning "Can't print a line - setting on/off to default") (set! on 1) (set! off 1))) ;; To give the lines produced by \draw-line and \draw-dashed-line the same ;; length, half-thick has to be added to the stencil-extensions. (ly:make-stencil (list 'dashed-line th on off x y phase) (interval-widen (ordered-cons 0 x) half-thick) (interval-widen (ordered-cons 0 y) half-thick)))) (define-markup-command (draw-dotted-line layout props dest) (number-pair?) #:category graphic #:properties ((thickness 1) (off 1) (phase 0)) " @cindex drawing dotted lines within text A dotted line. The dotted-line always extends to the whole length given by @var{dest}, without white space at beginning or end. Manual settings for @code{off} are possible to get larger or smaller space between the dots. The given (or default) value of @code{off} will be altered to fit the line-length. @lilypond[verbatim,quote] \\markup { \\draw-dotted-line #'(5.1 . 2.3) \\override #'(thickness . 2) \\override #'(off . 0.2) \\draw-dotted-line #'(5.1 . 2.3) } @end lilypond" (let ((new-props (prepend-alist-chain 'on 0 (prepend-alist-chain 'full-length #t props)))) (interpret-markup layout new-props (markup #:draw-dashed-line dest)))) (define-markup-command (draw-squiggle-line layout props sq-length dest eq-end?) (number? number-pair? boolean?) #:category graphic #:properties ((thickness 0.5) (angularity 0) (height 0.5) (orientation 1)) " @cindex drawing squiggled lines within text A squiggled line. If @code{eq-end?} is set to @code{#t}, it is ensured the squiggled line ends with a bow in same direction as the starting one. @code{sq-length} is the length of the first bow. @code{dest} is the end point of the squiggled line. To match @code{dest} the squiggled line is scaled accordingly. Its appearance may be customized by overrides for @code{thickness}, @code{angularity}, @code{height} and @code{orientation}. @lilypond[verbatim,quote] \\markup \\column { \\draw-squiggle-line #0.5 #'(6 . 0) ##t \\override #'(orientation . -1) \\draw-squiggle-line #0.5 #'(6 . 0) ##t \\draw-squiggle-line #0.5 #'(6 . 0) ##f \\override #'(height . 1) \\draw-squiggle-line #0.5 #'(6 . 0) ##t \\override #'(thickness . 5) \\draw-squiggle-line #0.5 #'(6 . 0) ##t \\override #'(angularity . 2) \\draw-squiggle-line #0.5 #'(6 . 0) ##t } @end lilypond" (let* ((line-thickness (ly:output-def-lookup layout 'line-thickness)) (thick (* thickness line-thickness)) (x (car dest)) (y (cdr dest)) (length-to-print (magnitude (make-rectangular x y))) ;; Make a guess how many bows may be needed (guess (max 1 (truncate (/ length-to-print sq-length)))) ;; If `eq-end?' is set #t, make sure squiggle-line starts and ends ;; with a bow in same direction (amount (if (and (even? guess) eq-end?) (1+ guess) guess)) ;; The lined-up bows needs to fit `length-to-print' ;; Thus scale the length of first bow accordingly ;; Other bows are copies (guessed-squiggle-line-length (* amount sq-length)) (line-length-diff (- length-to-print guessed-squiggle-line-length)) (line-length-diff-for-each-squiggle (/ line-length-diff amount)) (first-bow-length (+ sq-length line-length-diff-for-each-squiggle)) ;; Get first bows ;; TODO two bows are created via `make-bow-stencil' ;; cheaper to use `ly:stencil-scale'? (first-bow-end-coord (cons (/ (* first-bow-length x) length-to-print) (/ (* first-bow-length y) length-to-print))) (init-bow (lambda (o) (make-bow-stencil '(0 . 0) first-bow-end-coord thick angularity height o))) (init-bow-up (init-bow orientation)) (init-bow-down (init-bow (- orientation))) ;; Get a list of starting-points for the bows (list-of-starts (map (lambda (n) (cons (* n (car first-bow-end-coord)) (* n (cdr first-bow-end-coord)))) (iota amount)))) ;; The final stencil: lined-up bows (apply ly:stencil-add (map (lambda (stil pt) (ly:stencil-translate stil pt)) (circular-list init-bow-up init-bow-down) list-of-starts)))) (define-markup-command (draw-hline layout props) () #:category graphic #:properties ((draw-line-markup) (line-width) (span-factor 1)) " @cindex drawing a line across a page Draws a line across a page, where the property @code{span-factor} controls what fraction of the page is taken up. @lilypond[verbatim,quote] \\markup { \\column { \\draw-hline \\override #'(span-factor . 1/3) \\draw-hline } } @end lilypond" (interpret-markup layout props (markup #:draw-line (cons (* line-width span-factor) 0)))) (define-markup-command (draw-circle layout props radius thickness filled) (number? number? boolean?) #:category graphic " @cindex drawing circles within text A circle of radius @var{radius} and thickness @var{thickness}, optionally filled. @lilypond[verbatim,quote] \\markup { \\draw-circle #2 #0.5 ##f \\hspace #2 \\draw-circle #2 #0 ##t } @end lilypond" (make-circle-stencil radius thickness filled)) (define-markup-command (triangle layout props filled) (boolean?) #:category graphic #:properties ((thickness 0.1) (font-size 0) (baseline-skip 2)) " @cindex drawing triangles within text A triangle, either filled or empty. @lilypond[verbatim,quote] \\markup { \\triangle ##t \\hspace #2 \\triangle ##f } @end lilypond" (let ((ex (* (magstep font-size) 0.8 baseline-skip))) (ly:make-stencil `(polygon '(0.0 0.0 ,ex 0.0 ,(* 0.5 ex) ,(* 0.86 ex)) ,thickness ,filled) (cons 0 ex) (cons 0 (* .86 ex))))) (define-markup-command (circle layout props arg) (markup?) #:category graphic #:properties ((thickness 1) (font-size 0) (circle-padding 0.2)) " @cindex circling text Draw a circle around @var{arg}. Use @code{thickness}, @code{circle-padding} and @code{font-size} properties to determine line thickness and padding around the markup. @lilypond[verbatim,quote] \\markup { \\circle { Hi } } @end lilypond" (let ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (pad (* (magstep font-size) circle-padding)) (m (interpret-markup layout props arg))) (circle-stencil m th pad))) (define-markup-command (ellipse layout props arg) (markup?) #:category graphic #:properties ((thickness 1) (font-size 0) (x-padding 0.2) (y-padding 0.2)) " @cindex drawing ellipse around text Draw an ellipse around @var{arg}. Use @code{thickness}, @code{x-padding}, @code{y-padding} and @code{font-size} properties to determine line thickness and padding around the markup. @lilypond[verbatim,quote] \\markup { \\ellipse { Hi } } @end lilypond" (let ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (pad-x (* (magstep font-size) x-padding)) (pad-y (* (magstep font-size) y-padding)) (m (interpret-markup layout props arg))) (ellipse-stencil m th pad-x pad-y))) (define-markup-command (oval layout props arg) (markup?) #:category graphic #:properties ((thickness 1) (font-size 0) (x-padding 0.75) (y-padding 0.75)) " @cindex drawing oval around text Draw an oval around @var{arg}. Use @code{thickness}, @code{x-padding}, @code{x-padding} and @code{font-size} properties to determine line thickness and padding around the markup. @lilypond[verbatim,quote] \\markup { \\oval { Hi } } @end lilypond" (let ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (pad-x (* (magstep font-size) x-padding)) (pad-y (* (magstep font-size) y-padding)) (m (interpret-markup layout props arg))) (oval-stencil m th pad-x pad-y))) (define-markup-command (with-url layout props url arg) (string? markup?) #:category graphic " @cindex inserting URL links into text Add a link to URL @var{url} around @var{arg}. This only works in the PDF backend. @lilypond[verbatim,quote] \\markup { \\with-url #\"http://lilypond.org/\" { LilyPond ... \\italic { music notation for everyone } } } @end lilypond" (let* ((stil (interpret-markup layout props arg)) (xextent (ly:stencil-extent stil X)) (yextent (ly:stencil-extent stil Y)) (old-expr (ly:stencil-expr stil)) (url-expr (list 'url-link url `(quote ,xextent) `(quote ,yextent)))) (ly:stencil-add (ly:make-stencil url-expr xextent yextent) stil))) (define-markup-command (page-link layout props page-number arg) (number? markup?) #:category other " @cindex referencing page numbers in text Add a link to the page @var{page-number} around @var{arg}. This only works in the PDF backend. @lilypond[verbatim,quote] \\markup { \\page-link #2 { \\italic { This links to page 2... } } } @end lilypond" (let* ((stil (interpret-markup layout props arg)) (xextent (ly:stencil-extent stil X)) (yextent (ly:stencil-extent stil Y)) (old-expr (ly:stencil-expr stil)) (link-expr (list 'page-link page-number `(quote ,xextent) `(quote ,yextent)))) (ly:stencil-add (ly:make-stencil link-expr xextent yextent) stil))) (define-public (book-first-page layout props) "Return the @code{'first-page-number} of the entire book" (define (ancestor layout) "Return the topmost layout ancestor" (let ((parent (ly:output-def-parent layout))) (if (not (ly:output-def? parent)) layout (ancestor parent)))) (ly:output-def-lookup (ancestor layout) 'first-page-number)) (define-markup-command (with-link layout props label arg) (symbol? markup?) #:category other " @cindex referencing page labels in text Add a link to the page holding label @var{label} around @var{arg}. This only works in the PDF backend. @lilypond[verbatim,quote] \\markup { \\with-link #'label { \\italic { This links to the page containing the label... } } } @end lilypond" (let* ((arg-stencil (interpret-markup layout props arg)) (x-ext (ly:stencil-extent arg-stencil X)) (y-ext (ly:stencil-extent arg-stencil Y))) (ly:stencil-add (ly:make-stencil `(delay-stencil-evaluation ,(delay (let* ((table (ly:output-def-lookup layout 'label-page-table)) (table-page-number (if (list? table) (assoc-get label table) #f)) (first-page-number (book-first-page layout props)) (current-page-number (if table-page-number (1+ (- table-page-number first-page-number)) #f))) (list 'page-link current-page-number `(quote ,x-ext) `(quote ,y-ext))))) x-ext y-ext) arg-stencil))) (define-markup-command (beam layout props width slope thickness) (number? number? number?) #:category graphic " @cindex drawing beams within text Create a beam with the specified parameters. @lilypond[verbatim,quote] \\markup { \\beam #5 #1 #2 } @end lilypond" (let* ((y (* slope width)) (yext (cons (min 0 y) (max 0 y))) (half (/ thickness 2))) (ly:make-stencil `(polygon ',(list 0 (/ thickness -2) width (+ (* width slope) (/ thickness -2)) width (+ (* width slope) (/ thickness 2)) 0 (/ thickness 2)) ,(ly:output-def-lookup layout 'blot-diameter) #t) (cons 0 width) (cons (+ (- half) (car yext)) (+ half (cdr yext)))))) (define-markup-command (underline layout props arg) (markup?) #:category font #:properties ((thickness 1) (offset 2)) " @cindex underlining text Underline @var{arg}. Looks at @code{thickness} to determine line thickness, and @code{offset} to determine line y-offset. @lilypond[verbatim,quote] \\markup \\fill-line { \\underline \"underlined\" \\override #'(offset . 5) \\override #'(thickness . 1) \\underline \"underlined\" \\override #'(offset . 1) \\override #'(thickness . 5) \\underline \"underlined\" } @end lilypond" (let* ((thick (ly:output-def-lookup layout 'line-thickness)) (underline-thick (* thickness thick)) (m (interpret-markup layout props arg)) (x1 (car (ly:stencil-extent m X))) (x2 (cdr (ly:stencil-extent m X))) (y (* thick (- offset))) (line (make-line-stencil underline-thick x1 y x2 y))) (ly:stencil-add m line))) (define-markup-command (tie layout props arg) (markup?) #:category font #:properties ((thickness 1) (offset 2) (direction UP) (shorten-pair '(0 . 0))) " @cindex tie-ing text Adds a horizontal bow created with @code{make-tie-stencil} at bottom or top of @var{arg}. Looks at @code{thickness} to determine line thickness, and @code{offset} to determine y-offset. The added bow fits the extent of @var{arg}, @code{shorten-pair} may be used to modify this. @var{direction} may be set using an @code{override} or direction-modifiers or @code{voiceOne}, etc. @lilypond[verbatim,quote] \\markup { \\override #'(direction . 1) \\tie \"above\" \\override #'(direction . -1) \\tie \"below\" } @end lilypond" (let* ((line-thickness (ly:output-def-lookup layout 'line-thickness)) (thick (* thickness line-thickness)) (stil (interpret-markup layout props arg)) (x1 (car (ly:stencil-extent stil X))) (x2 (cdr (ly:stencil-extent stil X))) (y-ext (ly:stencil-extent stil Y)) (y (+ (* line-thickness offset direction) ;; we put out zero for positive text-direction, to make it ;; consistent with `underline-markup' ;; TODO: this will be problematic for args like "Eng" ;; fix it here _and_ in `underline-markup' (if (negative? direction) 0 (cdr y-ext)))) (tie (make-tie-stencil (cons (+ x1 (car shorten-pair) line-thickness) y) (cons (- x2 (cdr shorten-pair) line-thickness) y) thick direction))) (ly:stencil-add stil tie))) (define-markup-command (undertie layout props arg) (markup?) #:category font #:properties (tie-markup) " @cindex undertie-ing text @lilypond[verbatim,quote] \\markup \\line { \\undertie \"undertied\" \\override #'(offset . 5) \\override #'(thickness . 1) \\undertie \"undertied\" \\override #'(offset . 1) \\override #'(thickness . 5) \\undertie \"undertied\" } @end lilypond" (interpret-markup layout (prepend-alist-chain 'direction DOWN props) (make-tie-markup arg))) (define-markup-command (overtie layout props arg) (markup?) #:category font #:properties (tie-markup) " @cindex overtie-ing text Overtie @var{arg}. @lilypond[verbatim,quote] \\markup \\line { \\overtie \"overtied\" \\override #'(offset . 5) \\override #'(thickness . 1) \\overtie \"overtied\" \\override #'(offset . 1) \\override #'(thickness . 5) \\overtie \"overtied\" } @end lilypond" (interpret-markup layout (prepend-alist-chain 'direction UP props) (make-tie-markup arg))) (define-markup-command (box layout props arg) (markup?) #:category font #:properties ((thickness 1) (font-size 0) (box-padding 0.2)) " @cindex enclosing text within a box Draw a box round @var{arg}. Looks at @code{thickness}, @code{box-padding} and @code{font-size} properties to determine line thickness and padding around the markup. @lilypond[verbatim,quote] \\markup { \\override #'(box-padding . 0.5) \\box \\line { V. S. } } @end lilypond" (let* ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (pad (* (magstep font-size) box-padding)) (m (interpret-markup layout props arg))) (box-stencil m th pad))) (define-markup-command (filled-box layout props xext yext blot) (number-pair? number-pair? number?) #:category graphic " @cindex drawing solid boxes within text @cindex drawing boxes with rounded corners Draw a box with rounded corners of dimensions @var{xext} and @var{yext}. For example, @verbatim \\filled-box #'(-.3 . 1.8) #'(-.3 . 1.8) #0 @end verbatim creates a box extending horizontally from -0.3 to 1.8 and vertically from -0.3 up to 1.8, with corners formed from a circle of diameter@tie{}0 (i.e., sharp corners). @lilypond[verbatim,quote] \\markup { \\filled-box #'(0 . 4) #'(0 . 4) #0 \\filled-box #'(0 . 2) #'(-4 . 2) #0.4 \\filled-box #'(1 . 8) #'(0 . 7) #0.2 \\with-color #white \\filled-box #'(-4.5 . -2.5) #'(3.5 . 5.5) #0.7 } @end lilypond" (ly:round-filled-box xext yext blot)) (define-markup-command (rounded-box layout props arg) (markup?) #:category graphic #:properties ((thickness 1) (corner-radius 1) (font-size 0) (box-padding 0.5)) "@cindex enclosing text in a box with rounded corners @cindex drawing boxes with rounded corners around text Draw a box with rounded corners around @var{arg}. Looks at @code{thickness}, @code{box-padding} and @code{font-size} properties to determine line thickness and padding around the markup; the @code{corner-radius} property makes it possible to define another shape for the corners (default is 1). @lilypond[quote,verbatim,relative=2] c4^\\markup { \\rounded-box { Overtura } } c,8. c16 c4 r @end lilypond" (let ((th (* (ly:output-def-lookup layout 'line-thickness) thickness)) (pad (* (magstep font-size) box-padding)) (m (interpret-markup layout props arg))) (ly:stencil-add (rounded-box-stencil m th pad corner-radius) m))) (define-markup-command (rotate layout props ang arg) (number? markup?) #:category align " @cindex rotating text Rotate object with @var{ang} degrees around its center. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\rotate #45 \\line { rotated 45° } } @end lilypond" (let* ((stil (interpret-markup layout props arg))) (ly:stencil-rotate stil ang 0 0))) (define-markup-command (whiteout layout props arg) (markup?) #:category other #:properties ((style 'box) (thickness '())) " @cindex adding a white background to text Provide a white background for @var{arg}. The shape of the white background is determined by @code{style}. The default is @code{box} which produces a rectangle. @code{rounded-box} produces a rounded rectangle. @code{outline} approximates the outline of the markup. @lilypond[verbatim,quote] \\markup { \\combine \\filled-box #'(-1 . 15) #'(-3 . 4) #1 \\override #'(thickness . 1.5) \\whiteout whiteout-box } \\markup { \\combine \\filled-box #'(-1 . 24) #'(-3 . 4) #1 \\override #'(style . rounded-box) \\override #'(thickness . 3) \\whiteout whiteout-rounded-box } \\markup { \\combine \\filled-box #'(-1 . 18) #'(-3 . 4) #1 \\override #'(style . outline) \\override #'(thickness . 3) \\whiteout whiteout-outline } @end lilypond" (stencil-whiteout (interpret-markup layout props arg) style thickness (ly:output-def-lookup layout 'line-thickness))) (define-markup-command (pad-markup layout props amount arg) (number? markup?) #:category align " @cindex padding text @cindex putting space around text Add space around a markup object. Identical to @code{pad-around}. @lilypond[verbatim,quote] \\markup { \\box { default } \\hspace #2 \\box { \\pad-markup #1 { padded } } } @end lilypond" (let* ((m (interpret-markup layout props arg)) (x (interval-widen (ly:stencil-extent m X) amount)) (y (interval-widen (ly:stencil-extent m Y) amount))) (ly:stencil-add (make-transparent-box-stencil x y) m))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; space ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (strut layout props) () #:category other " @cindex creating vertical spaces in text Create a box of the same height as the space in the current font." (let ((m (ly:text-interface::interpret-markup layout props " "))) (ly:make-stencil (ly:stencil-expr m) '(0 . 0) (ly:stencil-extent m X) ))) (define-markup-command (hspace layout props amount) (number?) #:category align " @cindex creating horizontal spaces in text Create an invisible object taking up horizontal space @var{amount}. @lilypond[verbatim,quote] \\markup { one \\hspace #2 two \\hspace #8 three } @end lilypond" (ly:make-stencil "" (cons 0 amount) empty-interval)) (define-markup-command (vspace layout props amount) (number?) #:category align " @cindex creating vertical spaces in text Create an invisible object taking up vertical space of @var{amount} multiplied by 3. @lilypond[verbatim,quote] \\markup { \\center-column { one \\vspace #2 two \\vspace #5 three } } @end lilypond" (let ((amount (* amount 3.0))) (ly:make-stencil "" empty-interval (cons 0 amount)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; importing graphics. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (stencil layout props stil) (ly:stencil?) #:category other " @cindex importing stencils into text Use a stencil as markup. @lilypond[verbatim,quote] \\markup { \\stencil #(make-circle-stencil 2 0 #t) } @end lilypond" stil) (define bbox-regexp (make-regexp "%%BoundingBox:[ \t]+([0-9-]+)[ \t]+([0-9-]+)[ \t]+([0-9-]+)[ \t]+([0-9-]+)")) (define (get-postscript-bbox string) "Extract the bbox from STRING, or return #f if not present." (let* ((match (regexp-exec bbox-regexp string))) (if match (map (lambda (x) (string->number (match:substring match x))) (cdr (iota 5))) #f))) (define-markup-command (epsfile layout props axis size file-name) (number? number? string?) #:category graphic " @cindex inlining an Encapsulated PostScript image Inline an EPS image. The image is scaled along @var{axis} to @var{size}. @lilypond[verbatim,quote] \\markup { \\general-align #Y #DOWN { \\epsfile #X #20 #\"context-example.eps\" \\epsfile #Y #20 #\"context-example.eps\" } } @end lilypond" (if (ly:get-option 'safe) (interpret-markup layout props "not allowed in safe") (eps-file->stencil axis size file-name) )) (define-markup-command (postscript layout props str) (string?) #:category graphic " @cindex inserting PostScript directly into text This inserts @var{str} directly into the output as a PostScript command string. @lilypond[verbatim,quote] ringsps = #\" 0.15 setlinewidth 0.9 0.6 moveto 0.4 0.6 0.5 0 361 arc stroke 1.0 0.6 0.5 0 361 arc stroke \" rings = \\markup { \\with-dimensions #'(-0.2 . 1.6) #'(0 . 1.2) \\postscript #ringsps } \\relative c'' { c2^\\rings a2_\\rings } @end lilypond" ;; FIXME (ly:make-stencil (list 'embedded-ps (format #f " gsave currentpoint translate 0.1 setlinewidth ~a grestore " str)) '(0 . 0) '(0 . 0))) (define-markup-command (path layout props thickness commands) (number? list?) #:category graphic #:properties ((line-cap-style 'round) (line-join-style 'round) (filled #f)) " @cindex paths, drawing @cindex drawing paths Draws a path with line @var{thickness} according to the directions given in @var{commands}. @var{commands} is a list of lists where the @code{car} of each sublist is a drawing command and the @code{cdr} comprises the associated arguments for each command. There are seven commands available to use in the list @code{commands}: @code{moveto}, @code{rmoveto}, @code{lineto}, @code{rlineto}, @code{curveto}, @code{rcurveto}, and @code{closepath}. Note that the commands that begin with @emph{r} are the relative variants of the other three commands. The commands @code{moveto}, @code{rmoveto}, @code{lineto}, and @code{rlineto} take 2 arguments; they are the X and Y coordinates for the destination point. The commands @code{curveto} and @code{rcurveto} create cubic Bézier curves, and take 6 arguments; the first two are the X and Y coordinates for the first control point, the second two are the X and Y coordinates for the second control point, and the last two are the X and Y coordinates for the destination point. The @code{closepath} command takes zero arguments and closes the current subpath in the active path. Note that a sequence of commands @emph{must} begin with a @code{moveto} or @code{rmoveto} to work with the SVG output. Line-cap styles and line-join styles may be customized by overriding the @code{line-cap-style} and @code{line-join-style} properties, respectively. Available line-cap styles are @code{'butt}, @code{'round}, and @code{'square}. Available line-join styles are @code{'miter}, @code{'round}, and @code{'bevel}. The property @code{filled} specifies whether or not the path is filled with color. @lilypond[verbatim,quote] samplePath = #'((moveto 0 0) (lineto -1 1) (lineto 1 1) (lineto 1 -1) (curveto -5 -5 -5 5 -1 0) (closepath)) \\markup { \\path #0.25 #samplePath \\override #'(line-join-style . miter) \\path #0.25 #samplePath \\override #'(filled . #t) \\path #0.25 #samplePath } @end lilypond" (let* ((half-thickness (/ thickness 2)) (current-point '(0 . 0)) (set-point (lambda (lst) (set! current-point lst))) (relative? (lambda (x) (string-prefix? "r" (symbol->string (car x))))) ;; For calculating extents, we want to modify the command ;; list so that all coordinates are absolute. (new-commands (map (lambda (x) (cond ;; for rmoveto, rlineto ((and (relative? x) (= 3 (length x))) (let ((cp (cons (+ (car current-point) (second x)) (+ (cdr current-point) (third x))))) (set-point cp) (list (car cp) (cdr cp)))) ;; for rcurveto ((and (relative? x) (= 7 (length x))) (let* ((old-cp current-point) (cp (cons (+ (car old-cp) (sixth x)) (+ (cdr old-cp) (seventh x))))) (set-point cp) (list (+ (car old-cp) (second x)) (+ (cdr old-cp) (third x)) (+ (car old-cp) (fourth x)) (+ (cdr old-cp) (fifth x)) (car cp) (cdr cp)))) ;; for moveto, lineto ((= 3 (length x)) (set-point (cons (second x) (third x))) (drop x 1)) ;; for curveto ((= 7 (length x)) (set-point (cons (sixth x) (seventh x))) (drop x 1)) ;; keep closepath for filtering; ;; see `without-closepath'. (else x))) commands)) ;; path-min-max does not accept 0-arg lists, ;; and since closepath does not affect extents, filter ;; out those commands here. (without-closepath (filter (lambda (x) (not (equal? 'closepath (car x)))) new-commands)) (extents (path-min-max ;; set the origin to the first moveto (list (list-ref (car without-closepath) 0) (list-ref (car without-closepath) 1)) without-closepath)) (X-extent (cons (list-ref extents 0) (list-ref extents 1))) (Y-extent (cons (list-ref extents 2) (list-ref extents 3))) (command-list (fold-right append '() commands))) ;; account for line thickness (set! X-extent (interval-widen X-extent half-thickness)) (set! Y-extent (interval-widen Y-extent half-thickness)) (ly:make-stencil `(path ,thickness `(,@',command-list) ',line-cap-style ',line-join-style ,filled) X-extent Y-extent))) (define-markup-list-command (score-lines layout props score) (ly:score?) "This is the same as the @code{\\score} markup but delivers its systems as a list of lines. Its @var{score} argument is entered in braces like it would be for @code{\\score}." (let ((output (ly:score-embedded-format score layout))) (if (ly:music-output? output) (map (lambda (paper-system) ;; shift such that the refpoint of the bottom staff of ;; the first system is the baseline of the score (ly:stencil-translate-axis (paper-system-stencil paper-system) (- (car (paper-system-staff-extents paper-system))) Y)) (vector->list (ly:paper-score-paper-systems output))) (begin (ly:warning (_"no systems found in \\score markup, does it have a \\layout block?")) '())))) (define-markup-command (score layout props score) (ly:score?) #:category music #:properties ((baseline-skip)) " @cindex inserting music into text Inline an image of music. The reference point (usually the middle staff line) of the lowest staff in the top system is placed on the baseline. @lilypond[verbatim,quote] \\markup { \\score { \\new PianoStaff << \\new Staff \\relative c' { \\key f \\major \\time 3/4 \\mark \\markup { Allegro } f2\\p( a4) c2( a4) bes2( g'4) f8( e) e4 r } \\new Staff \\relative c { \\clef bass \\key f \\major \\time 3/4 f8( a c a c a f c' es c es c) f,( bes d bes d bes) f( g bes g bes g) } >> \\layout { indent = 0.0\\cm \\context { \\Score \\override RehearsalMark #'break-align-symbols = #'(time-signature key-signature) \\override RehearsalMark #'self-alignment-X = #LEFT } \\context { \\Staff \\override TimeSignature #'break-align-anchor-alignment = #LEFT } } } } @end lilypond" (stack-stencils Y DOWN baseline-skip (score-lines-markup-list layout props score))) (define-markup-command (null layout props) () #:category other " @cindex creating empty text objects An empty markup with extents of a single point. @lilypond[verbatim,quote] \\markup { \\null } @end lilypond" point-stencil) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; basic formatting. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (simple layout props str) (string?) #:category font " @cindex simple text strings A simple text string; @code{\\markup @{ foo @}} is equivalent with @code{\\markup @{ \\simple #\"foo\" @}}. Note: for creating standard text markup or defining new markup commands, the use of @code{\\simple} is unnecessary. @lilypond[verbatim,quote] \\markup { \\simple #\"simple\" \\simple #\"text\" \\simple #\"strings\" } @end lilypond" (interpret-markup layout props str)) (define-markup-command (first-visible layout props args) (markup-list?) #:category other "Use the first markup in @var{args} that yields a non-empty stencil and ignore the rest. @lilypond[verbatim,quote] \\markup { \\first-visible { \\fromproperty #'header:composer \\italic Unknown } } @end lilypond" (define (false-if-empty stencil) (if (ly:stencil-empty? stencil) #f stencil)) (or (any (lambda (m) (if (markup? m) (false-if-empty (interpret-markup layout props m)) (any false-if-empty (interpret-markup-list layout props (list m))))) args) empty-stencil)) (define-public empty-markup (make-simple-markup "")) ;; helper for justifying lines. (define (get-fill-space word-count line-width word-space text-widths constant-space?) "Calculate the necessary paddings between adjacent texts in a single justified line. The lengths of all texts are stored in @var{text-widths}. When @var{constant-space?} is @code{#t}, the formula for the padding between texts is: padding = (line-width - total-text-width)/(word-count - 1) When @var{constant-space?} is @code{#f}, the formula for the padding between interior texts a and b is: padding = line-width/(word-count - 1) - (length(a) + length(b))/2 In this case, the first and last padding have to be calculated specially using the whole length of the first or last text. All paddings are checked to be at least word-space, to ensure that no texts collide. Return a list of paddings." (cond ((null? text-widths) '()) (constant-space? (make-list (1- word-count) ;; Ensure that space between words cannot be ;; less than word-space. (max word-space (/ (- line-width (apply + text-widths)) (1- word-count))))) ;; special case first padding ((= (length text-widths) word-count) (cons (- (- (/ line-width (1- word-count)) (car text-widths)) (/ (cadr text-widths) 2)) (get-fill-space word-count line-width word-space (cdr text-widths) constant-space?))) ;; special case last padding ((= (length text-widths) 2) (list (- (/ line-width (1- word-count)) (+ (/ (car text-widths) 2) (cadr text-widths))) 0)) (else (let ((default-padding (- (/ line-width (1- word-count)) (/ (+ (car text-widths) (cadr text-widths)) 2)))) (cons (if (> word-space default-padding) word-space default-padding) (get-fill-space word-count line-width word-space (cdr text-widths) constant-space?)))))) (define (justify-line-helper layout props args text-direction word-space line-width constant-space?) "Return a stencil which spreads @var{args} along a line of width @var{line-width}. If @var{constant-space?} is set to @code{#t}, the space between words is constant. If @code{#f}, the distance between words varies according to their relative lengths." (let* ((orig-stencils (interpret-markup-list layout props args)) (stencils (map (lambda (stc) (if (ly:stencil-empty? stc X) (ly:make-stencil (ly:stencil-expr stc) '(0 . 0) (ly:stencil-extent stc Y)) stc)) orig-stencils)) (text-widths (map (lambda (stc) (interval-length (ly:stencil-extent stc X))) stencils)) (text-width (apply + text-widths)) (word-count (length stencils)) (line-width (or line-width (ly:output-def-lookup layout 'line-width))) (fill-space (cond ((= word-count 1) (list (/ (- line-width text-width) 2) (/ (- line-width text-width) 2))) ((= word-count 2) (list (- line-width text-width))) (else (get-fill-space word-count line-width word-space text-widths constant-space?)))) (line-contents (if (= word-count 1) (list point-stencil (car stencils) point-stencil) stencils))) (if (null? (remove ly:stencil-empty? orig-stencils)) empty-stencil (begin (if (= text-direction LEFT) (set! line-contents (reverse line-contents))) (set! line-contents (stack-stencils-padding-list X RIGHT fill-space line-contents)) (if (> word-count 1) ;; shift s.t. stencils align on the left edge, even if ;; first stencil had negative X-extent (e.g. center-column) ;; (if word-count = 1, X-extents are already normalized in ;; the definition of line-contents) (set! line-contents (ly:stencil-translate-axis line-contents (- (car (ly:stencil-extent (car stencils) X))) X))) line-contents)))) (define-markup-command (fill-line layout props args) (markup-list?) #:category align #:properties ((text-direction RIGHT) (word-space 0.6) (line-width #f)) "Put @var{markups} in a horizontal line of width @var{line-width}. The markups are spaced or flushed to fill the entire line. If there are no arguments, return an empty stencil. @lilypond[verbatim,quote] \\markup { \\column { \\fill-line { Words evenly spaced across the page } \\null \\fill-line { \\line { Text markups } \\line { \\italic { evenly spaced } } \\line { across the page } } } } @end lilypond" (justify-line-helper layout props args text-direction word-space line-width #f)) (define-markup-command (justify-line layout props args) (markup-list?) #:category align #:properties ((text-direction RIGHT) (word-space 0.6) (line-width #f)) "Put @var{markups} in a horizontal line of width @var{line-width}. The markups are spread to fill the entire line and separated by equal space. If there are no arguments, return an empty stencil. @lilypond[verbatim,quote] \\markup { \\justify-line { Space between neighboring words is constant } } @end lilypond" (justify-line-helper layout props args text-direction word-space line-width #t)) (define-markup-command (concat layout props args) (markup-list?) #:category align " @cindex concatenating text @cindex ligatures in text Concatenate @var{args} in a horizontal line, without spaces in between. Strings and simple markups are concatenated on the input level, allowing ligatures. For example, @code{\\concat @{ \"f\" \\simple #\"i\" @}} is equivalent to @code{\"fi\"}. @lilypond[verbatim,quote] \\markup { \\concat { one two three } } @end lilypond" (define (concat-string-args arg-list) (fold-right (lambda (arg result-list) (let ((result (and (pair? result-list) (car result-list)))) (cond ((not (pair? arg))) ((eq? (car arg) simple-markup) (set! arg (cadr arg))) ((eq? (car arg) char-markup) (set! arg (ly:wide-char->utf-8 (cadr arg))))) (if (and (string? result) (string? arg)) (cons (string-append arg result) (cdr result-list)) (cons arg result-list)))) '() arg-list)) (interpret-markup layout (prepend-alist-chain 'word-space 0 props) (make-line-markup (make-override-lines-markup-list (cons 'word-space (chain-assoc-get 'word-space props)) (if (markup-command-list? args) args (concat-string-args args)))))) (define (wordwrap-stencils stencils justify base-space line-width text-dir) "Perform simple wordwrap, return stencil of each line." (define space (if justify ;; justify only stretches lines. (* 0.7 base-space) base-space)) (define (stencil-len s) (interval-end (ly:stencil-extent s X))) (define (maybe-shift line) (if (= text-dir LEFT) (ly:stencil-translate-axis line (- line-width (stencil-len line)) X) line)) (if (null? stencils) '() (let loop ((lines '()) (todo stencils)) (let word-loop ((line (first todo)) (todo (cdr todo)) (word-list (list (first todo)))) (cond ((pair? todo) (let ((new (if (= text-dir LEFT) (ly:stencil-stack (car todo) X RIGHT line space) (ly:stencil-stack line X RIGHT (car todo) space)))) (cond ((<= (stencil-len new) line-width) (word-loop new (cdr todo) (cons (car todo) word-list))) (justify (let* ((word-list ;; This depends on stencil stacking being ;; associative so that stacking ;; left-to-right and right-to-left leads to ;; the same result (if (= text-dir LEFT) word-list (reverse! word-list))) (len (stencil-len line)) (stretch (- line-width len)) (spaces (- (stencil-len (stack-stencils X RIGHT (1+ space) word-list)) len))) (if (zero? spaces) ;; Uh oh, nothing to fill. (loop (cons (maybe-shift line) lines) todo) (loop (cons (stack-stencils X RIGHT (+ space (/ stretch spaces)) word-list) lines) todo)))) (else ;; not justify (loop (cons (maybe-shift line) lines) todo))))) ;; todo is null (justify ;; Now we have the last line assembled with space ;; which is compressed. We want to use the ;; uncompressed version instead if it fits, and the ;; justified version if it doesn't. (let* ((word-list ;; This depends on stencil stacking being ;; associative so that stacking ;; left-to-right and right-to-left leads to ;; the same result (if (= text-dir LEFT) word-list (reverse! word-list))) (big-line (stack-stencils X RIGHT base-space word-list)) (big-len (stencil-len big-line)) (len (stencil-len line))) (reverse! lines (list (if (> big-len line-width) (stack-stencils X RIGHT (/ (+ (* (- big-len line-width) space) (* (- line-width len) base-space)) (- big-len len)) word-list) (maybe-shift big-line)))))) (else ;; not justify (reverse! lines (list (maybe-shift line))))))))) (define-markup-list-command (wordwrap-internal layout props justify args) (boolean? markup-list?) #:properties ((line-width #f) (word-space) (text-direction RIGHT)) "Internal markup list command used to define @code{\\justify} and @code{\\wordwrap}." (wordwrap-stencils (interpret-markup-list layout props args) justify word-space (or line-width (ly:output-def-lookup layout 'line-width)) text-direction)) (define-markup-command (justify layout props args) (markup-list?) #:category align #:properties ((baseline-skip) wordwrap-internal-markup-list) " @cindex justifying text Like @code{\\wordwrap}, but with lines stretched to justify the margins. Use @code{\\override #'(line-width . @var{X})} to set the line width; @var{X}@tie{}is the number of staff spaces. @lilypond[verbatim,quote] \\markup { \\justify { Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. } } @end lilypond" (stack-lines DOWN 0.0 baseline-skip (wordwrap-internal-markup-list layout props #t args))) (define-markup-command (wordwrap layout props args) (markup-list?) #:category align #:properties ((baseline-skip) wordwrap-internal-markup-list) "Simple wordwrap. Use @code{\\override #'(line-width . @var{X})} to set the line width, where @var{X} is the number of staff spaces. @lilypond[verbatim,quote] \\markup { \\wordwrap { Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. } } @end lilypond" (stack-lines DOWN 0.0 baseline-skip (wordwrap-internal-markup-list layout props #f args))) (define-markup-list-command (wordwrap-string-internal layout props justify arg) (boolean? string?) #:properties ((line-width) (word-space) (text-direction RIGHT)) "Internal markup list command used to define @code{\\justify-string} and @code{\\wordwrap-string}." (let* ((para-strings (regexp-split (string-regexp-substitute "\r" "\n" (string-regexp-substitute "\r\n" "\n" arg)) "\n[ \t\n]*\n[ \t\n]*")) (list-para-words (map (lambda (str) (regexp-split str "[ \t\n]+")) para-strings)) (para-lines (map (lambda (words) (let* ((stencils (map (lambda (x) (interpret-markup layout props x)) words))) (wordwrap-stencils stencils justify word-space line-width text-direction))) list-para-words))) (concatenate para-lines))) (define-markup-command (wordwrap-string layout props arg) (string?) #:category align #:properties ((baseline-skip) wordwrap-string-internal-markup-list) "Wordwrap a string. Paragraphs may be separated with double newlines. @lilypond[verbatim,quote] \\markup { \\override #'(line-width . 40) \\wordwrap-string #\"Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum\" } @end lilypond" (stack-lines DOWN 0.0 baseline-skip (wordwrap-string-internal-markup-list layout props #f arg))) (define-markup-command (justify-string layout props arg) (string?) #:category align #:properties ((baseline-skip) wordwrap-string-internal-markup-list) "Justify a string. Paragraphs may be separated with double newlines @lilypond[verbatim,quote] \\markup { \\override #'(line-width . 40) \\justify-string #\"Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum\" } @end lilypond" (stack-lines DOWN 0.0 baseline-skip (wordwrap-string-internal-markup-list layout props #t arg))) (define-markup-command (wordwrap-field layout props symbol) (symbol?) #:category align "Wordwrap the data which has been assigned to @var{symbol}. @lilypond[verbatim,quote] \\header { title = \"My title\" myText = \"Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.\" } \\paper { bookTitleMarkup = \\markup { \\column { \\fill-line { \\fromproperty #'header:title } \\null \\wordwrap-field #'header:myText } } } \\markup { \\null } @end lilypond" (let* ((m (chain-assoc-get symbol props))) (if (string? m) (wordwrap-string-markup layout props m) empty-stencil))) (define-markup-command (justify-field layout props symbol) (symbol?) #:category align "Justify the data which has been assigned to @var{symbol}. @lilypond[verbatim,quote] \\header { title = \"My title\" myText = \"Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat.\" } \\paper { bookTitleMarkup = \\markup { \\column { \\fill-line { \\fromproperty #'header:title } \\null \\justify-field #'header:myText } } } \\markup { \\null } @end lilypond" (let* ((m (chain-assoc-get symbol props))) (if (string? m) (justify-string-markup layout props m) empty-stencil))) (define-markup-command (combine layout props arg1 arg2) (markup? markup?) #:category align " @cindex merging text Print two markups on top of each other. Note: @code{\\combine} cannot take a list of markups enclosed in curly braces as an argument; for this purpose use @code{\\overlay} instead. @lilypond[verbatim,quote] \\markup { \\fontsize #5 \\override #'(thickness . 2) \\combine \\draw-line #'(0 . 4) \\arrow-head #Y #DOWN ##f } @end lilypond" (let* ((s1 (interpret-markup layout props arg1)) (s2 (interpret-markup layout props arg2))) (ly:stencil-add s1 s2))) (define-markup-command (overlay layout props args) (markup-list?) #:category align " @cindex merging text Takes a list of markups combining them. @lilypond[verbatim,quote] \\markup { \\fontsize #5 \\override #'(thickness . 2) \\overlay { \\draw-line #'(0 . 4) \\arrow-head #Y #DOWN ##f \\translate #'(0 . 4)\\arrow-head #Y #UP ##f } } @end lilypond" (apply ly:stencil-add (interpret-markup-list layout props args))) ;; ;; TODO: should extract baseline-skip from each argument somehow.. ;; (define-markup-command (column layout props args) (markup-list?) #:category align #:properties ((baseline-skip)) " @cindex stacking text in a column Stack the markups in @var{args} vertically. The property @code{baseline-skip} determines the space between markups in @var{args}. @lilypond[verbatim,quote] \\markup { \\column { one two three } } @end lilypond" (let ((arg-stencils (interpret-markup-list layout props args))) (stack-lines -1 0.0 baseline-skip arg-stencils))) (define-markup-command (dir-column layout props args) (markup-list?) #:category align #:properties ((direction) (baseline-skip)) " @cindex changing direction of text columns Make a column of @var{args}, going up or down, depending on the setting of the @code{direction} layout property. @lilypond[verbatim,quote] \\markup { \\override #`(direction . ,UP) { \\dir-column { going up } } \\hspace #1 \\dir-column { going down } \\hspace #1 \\override #'(direction . 1) { \\dir-column { going up } } } @end lilypond" (stack-lines (if (number? direction) direction -1) 0.0 baseline-skip (interpret-markup-list layout props args))) (define (general-column align-dir baseline mols) "Stack @var{mols} vertically, aligned to @var{align-dir} horizontally." (let* ((aligned-mols (map (lambda (x) (ly:stencil-aligned-to x X align-dir)) mols)) (stacked-stencil (stack-lines -1 0.0 baseline aligned-mols)) (stacked-extent (ly:stencil-extent stacked-stencil X))) (ly:stencil-translate-axis stacked-stencil (- (car stacked-extent)) X ))) (define-markup-command (center-column layout props args) (markup-list?) #:category align #:properties ((baseline-skip)) " @cindex centering a column of text Put @code{args} in a centered column. @lilypond[verbatim,quote] \\markup { \\center-column { one two three } } @end lilypond" (general-column CENTER baseline-skip (interpret-markup-list layout props args))) (define-markup-command (left-column layout props args) (markup-list?) #:category align #:properties ((baseline-skip)) " @cindex text columns, left-aligned Put @code{args} in a left-aligned column. @lilypond[verbatim,quote] \\markup { \\left-column { one two three } } @end lilypond" (general-column LEFT baseline-skip (interpret-markup-list layout props args))) (define-markup-command (right-column layout props args) (markup-list?) #:category align #:properties ((baseline-skip)) " @cindex text columns, right-aligned Put @code{args} in a right-aligned column. @lilypond[verbatim,quote] \\markup { \\right-column { one two three } } @end lilypond" (general-column RIGHT baseline-skip (interpret-markup-list layout props args))) (define-markup-command (vcenter layout props arg) (markup?) #:category align " @cindex vertically centering text Align @code{arg} to its Y@tie{}center. @lilypond[verbatim,quote] \\markup { one \\vcenter two three } @end lilypond" (let* ((mol (interpret-markup layout props arg))) (ly:stencil-aligned-to mol Y CENTER))) (define-markup-command (center-align layout props arg) (markup?) #:category align " @cindex horizontally centering text Align @code{arg} to its X@tie{}center. @lilypond[verbatim,quote] \\markup { \\column { one \\center-align two three } } @end lilypond" (let* ((mol (interpret-markup layout props arg))) (ly:stencil-aligned-to mol X CENTER))) (define-markup-command (right-align layout props arg) (markup?) #:category align " @cindex right aligning text Align @var{arg} on its right edge. @lilypond[verbatim,quote] \\markup { \\column { one \\right-align two three } } @end lilypond" (let* ((m (interpret-markup layout props arg))) (ly:stencil-aligned-to m X RIGHT))) (define-markup-command (left-align layout props arg) (markup?) #:category align " @cindex left aligning text Align @var{arg} on its left edge. @lilypond[verbatim,quote] \\markup { \\column { one \\left-align two three } } @end lilypond" (let* ((m (interpret-markup layout props arg))) (ly:stencil-aligned-to m X LEFT))) (define-markup-command (general-align layout props axis dir arg) (integer? number? markup?) #:category align " @cindex controlling general text alignment Align @var{arg} in @var{axis} direction to the @var{dir} side. @lilypond[verbatim,quote] \\markup { \\column { one \\general-align #X #LEFT two three \\null one \\general-align #X #CENTER two three \\null \\line { one \\general-align #Y #UP two three } \\null \\line { one \\general-align #Y #3.2 two three } } } @end lilypond" (let* ((m (interpret-markup layout props arg))) (ly:stencil-aligned-to m axis dir))) (define-markup-command (halign layout props dir arg) (number? markup?) #:category align " @cindex setting horizontal text alignment Set horizontal alignment. If @var{dir} is @w{@code{-1}}, then it is left-aligned, while @code{+1} is right. Values in between interpolate alignment accordingly. @lilypond[verbatim,quote] \\markup { \\column { one \\halign #LEFT two three \\null one \\halign #CENTER two three \\null one \\halign #RIGHT two three \\null one \\halign #-5 two three } } @end lilypond" (let* ((m (interpret-markup layout props arg))) (ly:stencil-aligned-to m X dir))) (define-markup-command (with-dimensions layout props x y arg) (number-pair? number-pair? markup?) #:category other " @cindex setting extent of text objects Set the dimensions of @var{arg} to @var{x} and@tie{}@var{y}." (let* ((expr (ly:stencil-expr (interpret-markup layout props arg)))) (ly:stencil-add (make-transparent-box-stencil x y) (ly:make-stencil `(delay-stencil-evaluation ,(delay expr)) x y)))) (define-markup-command (with-dimensions-from layout props arg1 arg2) (markup? markup?) #:category other " Print @var{arg2} with the dimensions of @var{arg1}." (let* ((stil1 (interpret-markup layout props arg1)) (x (ly:stencil-extent stil1 0)) (y (ly:stencil-extent stil1 1))) (interpret-markup layout props (markup #:with-dimensions x y arg2)))) (define-markup-command (pad-around layout props amount arg) (number? markup?) #:category align "Add padding @var{amount} all around @var{arg}. @lilypond[verbatim,quote] \\markup { \\box { default } \\hspace #2 \\box { \\pad-around #0.5 { padded } } } @end lilypond" (let* ((m (interpret-markup layout props arg)) (x (interval-widen (ly:stencil-extent m X) amount)) (y (interval-widen (ly:stencil-extent m Y) amount))) (ly:stencil-add (make-transparent-box-stencil x y) m))) (define-markup-command (pad-x layout props amount arg) (number? markup?) #:category align " @cindex padding text horizontally Add padding @var{amount} around @var{arg} in the X@tie{}direction. @lilypond[verbatim,quote] \\markup { \\box { default } \\hspace #4 \\box { \\pad-x #2 { padded } } } @end lilypond" (let* ((m (interpret-markup layout props arg)) (x (ly:stencil-extent m X)) (y (ly:stencil-extent m Y))) (ly:make-stencil (ly:stencil-expr m) (interval-widen x amount) y))) (define-markup-command (put-adjacent layout props axis dir arg1 arg2) (integer? ly:dir? markup? markup?) #:category align "Put @var{arg2} next to @var{arg1}, without moving @var{arg1}." (let ((m1 (interpret-markup layout props arg1)) (m2 (interpret-markup layout props arg2))) (ly:stencil-combine-at-edge m1 axis dir m2 0.0))) (define-markup-command (transparent layout props arg) (markup?) #:category other "Make @var{arg} transparent. @lilypond[verbatim,quote] \\markup { \\transparent { invisible text } } @end lilypond" (let* ((m (interpret-markup layout props arg)) (x (ly:stencil-extent m X)) (y (ly:stencil-extent m Y))) (ly:make-stencil (list 'transparent-stencil (ly:stencil-expr m)) x y))) (define-markup-command (pad-to-box layout props x-ext y-ext arg) (number-pair? number-pair? markup?) #:category align "Make @var{arg} take at least @var{x-ext}, @var{y-ext} space. @lilypond[verbatim,quote] \\markup { \\box { default } \\hspace #4 \\box { \\pad-to-box #'(0 . 10) #'(0 . 3) { padded } } } @end lilypond" (ly:stencil-add (make-transparent-box-stencil x-ext y-ext) (interpret-markup layout props arg))) (define-markup-command (hcenter-in layout props length arg) (number? markup?) #:category align "Center @var{arg} horizontally within a box of extending @var{length}/2 to the left and right. @lilypond[quote,verbatim] \\new StaffGroup << \\new Staff { \\set Staff.instrumentName = \\markup { \\hcenter-in #12 Oboe } c''1 } \\new Staff { \\set Staff.instrumentName = \\markup { \\hcenter-in #12 Bassoon } \\clef tenor c'1 } >> @end lilypond" (interpret-markup layout props (make-pad-to-box-markup (cons (/ length -2) (/ length 2)) '(0 . 0) (make-center-align-markup arg)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; property ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (property-recursive layout props symbol) (symbol?) #:category other "Print out a warning when a header field markup contains some recursive markup definition." (ly:warning "Recursive definition of property ~a detected!" symbol) empty-stencil) (define-markup-command (fromproperty layout props symbol) (symbol?) #:category other "Read the @var{symbol} from property settings, and produce a stencil from the markup contained within. If @var{symbol} is not defined, it returns an empty markup. @lilypond[verbatim,quote] \\header { myTitle = \"myTitle\" title = \\markup { from \\italic \\fromproperty #'header:myTitle } } \\markup { \\null } @end lilypond" (let ((m (chain-assoc-get symbol props))) (if (markup? m) ;; prevent infinite loops by clearing the interpreted property: (interpret-markup layout (cons (list (cons symbol `(,property-recursive-markup ,symbol))) props) m) empty-stencil))) (define-markup-command (on-the-fly layout props procedure arg) (procedure? markup?) #:category other "Apply the @var{procedure} markup command to @var{arg}. @var{procedure} takes the same arguments as @code{interpret-markup} and returns a stencil." (procedure layout props arg)) (define-markup-command (footnote layout props mkup note) (markup? markup?) #:category other "Have footnote @var{note} act as an annotation to the markup @var{mkup}. @lilypond[verbatim,quote] \\markup { \\auto-footnote a b \\override #'(padding . 0.2) \\auto-footnote c d } @end lilypond The footnote will not be annotated automatically." (ly:stencil-combine-at-edge (interpret-markup layout props mkup) X RIGHT (ly:make-stencil `(footnote (gensym "footnote") #f ,(interpret-markup layout props note)) '(0 . 0) '(0 . 0)) 0.0)) (define-markup-command (auto-footnote layout props mkup note) (markup? markup?) #:category other #:properties ((raise 0.5) (padding 0.0)) "Have footnote @var{note} act as an annotation to the markup @var{mkup}. @lilypond[verbatim,quote] \\markup { \\auto-footnote a b \\override #'(padding . 0.2) \\auto-footnote c d } @end lilypond The footnote will be annotated automatically." (let* ((markup-stencil (interpret-markup layout props mkup)) (footnote-hash (gensym "footnote")) (stencil-seed 0) (gauge-stencil (interpret-markup layout props ((ly:output-def-lookup layout 'footnote-numbering-function) stencil-seed))) (x-ext (ly:stencil-extent gauge-stencil X)) (y-ext (ly:stencil-extent gauge-stencil Y)) (footnote-number `(delay-stencil-evaluation ,(delay (ly:stencil-expr (let* ((table (ly:output-def-lookup layout 'number-footnote-table)) (footnote-stencil (if (list? table) (assoc-get footnote-hash table) empty-stencil)) (footnote-stencil (if (ly:stencil? footnote-stencil) footnote-stencil (begin (ly:programming-error "Cannot find correct footnote for a markup object.") empty-stencil))) (gap (- (interval-length x-ext) (interval-length (ly:stencil-extent footnote-stencil X)))) (y-trans (- (+ (cdr y-ext) raise) (cdr (ly:stencil-extent footnote-stencil Y))))) (ly:stencil-translate footnote-stencil (cons gap y-trans))))))) (main-stencil (ly:stencil-combine-at-edge markup-stencil X RIGHT (ly:make-stencil footnote-number x-ext y-ext) padding))) (ly:stencil-add main-stencil (ly:make-stencil `(footnote ,footnote-hash #t ,(interpret-markup layout props note)) '(0 . 0) '(0 . 0))))) (define-markup-command (override layout props new-prop arg) (pair? markup?) #:category other " @cindex overriding properties within text markup Add the argument @var{new-prop} to the property list. Properties may be any property supported by @rinternals{font-interface}, @rinternals{text-interface} and @rinternals{instrument-specific-markup-interface}. @lilypond[verbatim,quote] \\markup { \\line { \\column { default baseline-skip } \\hspace #2 \\override #'(baseline-skip . 4) { \\column { increased baseline-skip } } } } @end lilypond" (interpret-markup layout (cons (list new-prop) props) arg)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; files ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (verbatim-file layout props name) (string?) #:category other "Read the contents of file @var{name}, and include it verbatim. @lilypond[verbatim,quote] \\markup { \\verbatim-file #\"simple.ly\" } @end lilypond" (interpret-markup layout props (if (ly:get-option 'safe) "verbatim-file disabled in safe mode" (let* ((str (ly:gulp-file name)) (lines (string-split str #\nl))) (make-typewriter-markup (make-column-markup lines)))))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; fonts. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (smaller layout props arg) (markup?) #:category font "Decrease the font size relative to the current setting. @lilypond[verbatim,quote] \\markup { \\fontsize #3.5 { some large text \\hspace #2 \\smaller { a bit smaller } \\hspace #2 more large text } } @end lilypond" (interpret-markup layout props `(,fontsize-markup -1 ,arg))) (define-markup-command (larger layout props arg) (markup?) #:category font "Increase the font size relative to the current setting. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\larger larger } @end lilypond" (interpret-markup layout props `(,fontsize-markup 1 ,arg))) (define-markup-command (finger layout props arg) (markup?) #:category font "Set @var{arg} as small numbers. @lilypond[verbatim,quote] \\markup { \\finger { 1 2 3 4 5 } } @end lilypond" (interpret-markup layout (cons '((font-size . -5) (font-encoding . fetaText)) props) arg)) (define-markup-command (abs-fontsize layout props size arg) (number? markup?) #:category font "Use @var{size} as the absolute font size (in points) to display @var{arg}. Adjusts @code{baseline-skip} and @code{word-space} accordingly. @lilypond[verbatim,quote] \\markup { default text font size \\hspace #2 \\abs-fontsize #16 { text font size 16 } \\hspace #2 \\abs-fontsize #12 { text font size 12 } } @end lilypond" (let* ((ref-size (ly:output-def-lookup layout 'text-font-size 12)) (text-props (list (ly:output-def-lookup layout 'text-font-defaults))) (ref-word-space (chain-assoc-get 'word-space text-props 0.6)) (ref-baseline (chain-assoc-get 'baseline-skip text-props 3)) (magnification (/ size ref-size))) (interpret-markup layout (cons `((baseline-skip . ,(* magnification ref-baseline)) (word-space . ,(* magnification ref-word-space)) (font-size . ,(magnification->font-size magnification))) props) arg))) (define-markup-command (fontsize layout props increment arg) (number? markup?) #:category font #:properties ((font-size 0) (word-space 1) (baseline-skip 2)) "Add @var{increment} to the font-size. Adjusts @code{baseline-skip} accordingly. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\fontsize #-1.5 smaller } @end lilypond" (interpret-markup layout (cons `((baseline-skip . ,(* baseline-skip (magstep increment))) (word-space . ,(* word-space (magstep increment))) (font-size . ,(+ font-size increment))) props) arg)) (define-markup-command (magnify layout props sz arg) (number? markup?) #:category font " @cindex magnifying text Set the font magnification for its argument. In the following example, the middle@tie{}A is 10% larger: @example A \\magnify #1.1 @{ A @} A @end example Note: Magnification only works if a font name is explicitly selected. Use @code{\\fontsize} otherwise. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\magnify #1.5 { 50% larger } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size (magnification->font-size sz) props) arg)) (define-markup-command (bold layout props arg) (markup?) #:category font "Switch to bold font-series. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\bold bold } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-series 'bold props) arg)) (define-markup-command (sans layout props arg) (markup?) #:category font "Switch to the sans serif font family. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\sans { sans serif } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-family 'sans props) arg)) (define-markup-command (number layout props arg) (markup?) #:category font "Set font family to @code{number}, which yields the font used for time signatures and fingerings. This font contains numbers and some punctuation; it has no letters. @lilypond[verbatim,quote] \\markup { \\number { 0 1 2 3 4 5 6 7 8 9 . , } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-encoding 'fetaText props) arg)) (define-markup-command (roman layout props arg) (markup?) #:category font "Set font family to @code{roman}. @lilypond[verbatim,quote] \\markup { \\sans \\bold { sans serif, bold \\hspace #2 \\roman { text in roman font family } \\hspace #2 return to sans } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-family 'roman props) arg)) (define-markup-command (huge layout props arg) (markup?) #:category font "Set font size to +2. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\huge huge } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size 2 props) arg)) (define-markup-command (large layout props arg) (markup?) #:category font "Set font size to +1. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\large large } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size 1 props) arg)) (define-markup-command (normalsize layout props arg) (markup?) #:category font "Set font size to default. @lilypond[verbatim,quote] \\markup { \\teeny { this is very small \\hspace #2 \\normalsize { normal size } \\hspace #2 teeny again } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size 0 props) arg)) (define-markup-command (small layout props arg) (markup?) #:category font "Set font size to -1. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\small small } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size -1 props) arg)) (define-markup-command (tiny layout props arg) (markup?) #:category font "Set font size to -2. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\tiny tiny } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size -2 props) arg)) (define-markup-command (teeny layout props arg) (markup?) #:category font "Set font size to -3. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\teeny teeny } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-size -3 props) arg)) (define-markup-command (fontCaps layout props arg) (markup?) #:category font "Set @code{font-shape} to @code{caps} Note: @code{\\fontCaps} requires the installation and selection of fonts which support the @code{caps} font shape." (interpret-markup layout (prepend-alist-chain 'font-shape 'caps props) arg)) ;; Poor man's caps (define-markup-command (smallCaps layout props arg) (markup?) #:category font "Emit @var{arg} as small caps. Note: @code{\\smallCaps} does not support accented characters. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\smallCaps { Text in small caps } } @end lilypond" (define (char-list->markup chars lower) (let ((final-string (string-upcase (reverse-list->string chars)))) (if lower (markup #:fontsize -2 final-string) final-string))) (define (make-small-caps rest-chars currents current-is-lower prev-result) (if (null? rest-chars) (make-concat-markup (reverse! (cons (char-list->markup currents current-is-lower) prev-result))) (let* ((ch (car rest-chars)) (is-lower (char-lower-case? ch))) (if (or (and current-is-lower is-lower) (and (not current-is-lower) (not is-lower))) (make-small-caps (cdr rest-chars) (cons ch currents) is-lower prev-result) (make-small-caps (cdr rest-chars) (list ch) is-lower (if (null? currents) prev-result (cons (char-list->markup currents current-is-lower) prev-result))))))) (interpret-markup layout props (if (string? arg) (make-small-caps (string->list arg) (list) #f (list)) arg))) (define-markup-command (caps layout props arg) (markup?) #:category font "Copy of the @code{\\smallCaps} command. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\caps { Text in small caps } } @end lilypond" (interpret-markup layout props (make-smallCaps-markup arg))) (define-markup-command (dynamic layout props arg) (markup?) #:category font "Use the dynamic font. This font only contains @b{s}, @b{f}, @b{m}, @b{z}, @b{p}, and @b{r}. When producing phrases, like @q{pi@`{u}@tie{}@b{f}}, the normal words (like @q{pi@`{u}}) should be done in a different font. The recommended font for this is bold and italic. @lilypond[verbatim,quote] \\markup { \\dynamic { sfzp } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-encoding 'fetaText props) arg)) (define-markup-command (text layout props arg) (markup?) #:category font "Use a text font instead of music symbol or music alphabet font. @lilypond[verbatim,quote] \\markup { \\number { 1, 2, \\text { three, four, } 5 } } @end lilypond" ;; ugh - latin1 (interpret-markup layout (prepend-alist-chain 'font-encoding 'latin1 props) arg)) (define-markup-command (italic layout props arg) (markup?) #:category font "Use italic @code{font-shape} for @var{arg}. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\italic italic } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-shape 'italic props) arg)) (define-markup-command (typewriter layout props arg) (markup?) #:category font "Use @code{font-family} typewriter for @var{arg}. @lilypond[verbatim,quote] \\markup { default \\hspace #2 \\typewriter typewriter } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-family 'typewriter props) arg)) (define-markup-command (upright layout props arg) (markup?) #:category font "Set @code{font-shape} to @code{upright}. This is the opposite of @code{italic}. @lilypond[verbatim,quote] \\markup { \\italic { italic text \\hspace #2 \\upright { upright text } \\hspace #2 italic again } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-shape 'upright props) arg)) (define-markup-command (medium layout props arg) (markup?) #:category font "Switch to medium font-series (in contrast to bold). @lilypond[verbatim,quote] \\markup { \\bold { some bold text \\hspace #2 \\medium { medium font series } \\hspace #2 bold again } } @end lilypond" (interpret-markup layout (prepend-alist-chain 'font-series 'medium props) arg)) (define-markup-command (normal-text layout props arg) (markup?) #:category font "Set all font related properties (except the size) to get the default normal text font, no matter what font was used earlier. @lilypond[verbatim,quote] \\markup { \\huge \\bold \\sans \\caps { huge bold sans caps \\hspace #2 \\normal-text { huge normal } \\hspace #2 as before } } @end lilypond" ;; ugh - latin1 (interpret-markup layout (cons '((font-family . roman) (font-shape . upright) (font-series . medium) (font-encoding . latin1)) props) arg)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; symbols. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (musicglyph layout props glyph-name) (string?) #:category music "@var{glyph-name} is converted to a musical symbol; for example, @code{\\musicglyph #\"accidentals.natural\"} selects the natural sign from the music font. See @ruser{The Feta font} for a complete listing of the possible glyphs. @lilypond[verbatim,quote] \\markup { \\musicglyph #\"f\" \\musicglyph #\"rests.2\" \\musicglyph #\"clefs.G_change\" } @end lilypond" (let* ((font (ly:paper-get-font layout (cons '((font-encoding . fetaMusic) (font-name . #f)) props))) (glyph (ly:font-get-glyph font glyph-name))) (if (null? (ly:stencil-expr glyph)) (ly:warning (_ "Cannot find glyph ~a") glyph-name)) glyph)) (define-markup-command (doublesharp layout props) () #:category music "Draw a double sharp symbol. @lilypond[verbatim,quote] \\markup { \\doublesharp } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get 1 standard-alteration-glyph-name-alist "")))) (define-markup-command (sesquisharp layout props) () #:category music "Draw a 3/2 sharp symbol. @lilypond[verbatim,quote] \\markup { \\sesquisharp } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get 3/4 standard-alteration-glyph-name-alist "")))) (define-markup-command (sharp layout props) () #:category music "Draw a sharp symbol. @lilypond[verbatim,quote] \\markup { \\sharp } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get 1/2 standard-alteration-glyph-name-alist "")))) (define-markup-command (semisharp layout props) () #:category music "Draw a semisharp symbol. @lilypond[verbatim,quote] \\markup { \\semisharp } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get 1/4 standard-alteration-glyph-name-alist "")))) (define-markup-command (natural layout props) () #:category music "Draw a natural symbol. @lilypond[verbatim,quote] \\markup { \\natural } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get 0 standard-alteration-glyph-name-alist "")))) (define-markup-command (semiflat layout props) () #:category music "Draw a semiflat symbol. @lilypond[verbatim,quote] \\markup { \\semiflat } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get -1/4 standard-alteration-glyph-name-alist "")))) (define-markup-command (flat layout props) () #:category music "Draw a flat symbol. @lilypond[verbatim,quote] \\markup { \\flat } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get -1/2 standard-alteration-glyph-name-alist "")))) (define-markup-command (sesquiflat layout props) () #:category music "Draw a 3/2 flat symbol. @lilypond[verbatim,quote] \\markup { \\sesquiflat } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get -3/4 standard-alteration-glyph-name-alist "")))) (define-markup-command (doubleflat layout props) () #:category music "Draw a double flat symbol. @lilypond[verbatim,quote] \\markup { \\doubleflat } @end lilypond" (interpret-markup layout props (markup #:musicglyph (assoc-get -1 standard-alteration-glyph-name-alist "")))) (define-markup-command (with-color layout props color arg) (color? markup?) #:category other " @cindex coloring text Draw @var{arg} in color specified by @var{color}. @lilypond[verbatim,quote] \\markup { \\with-color #red red \\hspace #2 \\with-color #green green \\hspace #2 \\with-color #blue blue } @end lilypond" (let ((stil (interpret-markup layout props arg))) (ly:make-stencil (list 'color color (ly:stencil-expr stil)) (ly:stencil-extent stil X) (ly:stencil-extent stil Y)))) (define-markup-command (tied-lyric layout props str) (string?) #:category music #:properties ((word-space)) " @cindex simple text strings with tie characters Like simple-markup, but use tie characters for @q{~} tilde symbols. @lilypond[verbatim,quote] \\markup \\column { \\tied-lyric #\"Siam navi~all'onde~algenti Lasciate~in abbandono\" \\tied-lyric #\"Impetuosi venti I nostri~affetti sono\" \\tied-lyric #\"Ogni diletto~e scoglio Tutta la vita~e~un mar.\" } @end lilypond" (define (replace-ties tie str) (if (string-contains str "~") (let* ((half-space (/ word-space 2)) (parts (string-split str #\~)) (tie-str (markup #:hspace half-space #:musicglyph tie #:hspace half-space)) (joined (list-join parts tie-str))) (make-concat-markup joined)) str)) (define short-tie-regexp (make-regexp "~[^.]~")) (define (match-short str) (regexp-exec short-tie-regexp str)) (define (replace-short str mkp) (let ((match (match-short str))) (if (not match) (make-concat-markup (list mkp (replace-ties "ties.lyric.default" str))) (let ((new-str (match:suffix match)) (new-mkp (make-concat-markup (list mkp (replace-ties "ties.lyric.default" (match:prefix match)) (replace-ties "ties.lyric.short" (match:substring match)))))) (replace-short new-str new-mkp))))) (interpret-markup layout props (replace-short str (markup)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; glyphs ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (arrow-head layout props axis dir filled) (integer? ly:dir? boolean?) #:category graphic "Produce an arrow head in specified direction and axis. Use the filled head if @var{filled} is specified. @lilypond[verbatim,quote] \\markup { \\fontsize #5 { \\general-align #Y #DOWN { \\arrow-head #Y #UP ##t \\arrow-head #Y #DOWN ##f \\hspace #2 \\arrow-head #X #RIGHT ##f \\arrow-head #X #LEFT ##f } } } @end lilypond" (let* ((name (format #f "arrowheads.~a.~a~a" (if filled "close" "open") axis dir))) (ly:font-get-glyph (ly:paper-get-font layout (cons '((font-encoding . fetaMusic)) props)) name))) (define-markup-command (lookup layout props glyph-name) (string?) #:category other "Lookup a glyph by name. @lilypond[verbatim,quote] \\markup { \\override #'(font-encoding . fetaBraces) { \\lookup #\"brace200\" \\hspace #2 \\rotate #180 \\lookup #\"brace180\" } } @end lilypond" (ly:font-get-glyph (ly:paper-get-font layout props) glyph-name)) (define-markup-command (char layout props num) (integer?) #:category other "Produce a single character. Characters encoded in hexadecimal format require the prefix @code{#x}. @lilypond[verbatim,quote] \\markup { \\char #65 \\char ##x00a9 } @end lilypond" (ly:text-interface::interpret-markup layout props (ly:wide-char->utf-8 num))) (define number->mark-letter-vector (make-vector 25 #\A)) (do ((i 0 (1+ i)) (j 0 (1+ j))) ((>= i 26)) (if (= i (- (char->integer #\I) (char->integer #\A))) (set! i (1+ i))) (vector-set! number->mark-letter-vector j (integer->char (+ i (char->integer #\A))))) (define number->mark-alphabet-vector (list->vector (map (lambda (i) (integer->char (+ i (char->integer #\A)))) (iota 26)))) (define (number->markletter-string vec n) "Double letters for big marks." (let* ((lst (vector-length vec))) (if (>= n lst) (string-append (number->markletter-string vec (1- (quotient n lst))) (number->markletter-string vec (remainder n lst))) (make-string 1 (vector-ref vec n))))) (define-markup-command (markletter layout props num) (integer?) #:category other "Make a markup letter for @var{num}. The letters start with A to@tie{}Z (skipping letter@tie{}I), and continue with double letters. @lilypond[verbatim,quote] \\markup { \\markletter #8 \\hspace #2 \\markletter #26 } @end lilypond" (ly:text-interface::interpret-markup layout props (number->markletter-string number->mark-letter-vector num))) (define-markup-command (markalphabet layout props num) (integer?) #:category other "Make a markup letter for @var{num}. The letters start with A to@tie{}Z and continue with double letters. @lilypond[verbatim,quote] \\markup { \\markalphabet #8 \\hspace #2 \\markalphabet #26 } @end lilypond" (ly:text-interface::interpret-markup layout props (number->markletter-string number->mark-alphabet-vector num))) (define-public (horizontal-slash-interval num forward number-interval mag) (if forward (cond ;; ((= num 6) (interval-widen number-interval (* mag 0.5))) ;; ((= num 5) (interval-widen number-interval (* mag 0.5))) (else (interval-widen number-interval (* mag 0.25)))) (cond ((= num 6) (interval-widen number-interval (* mag 0.5))) ;; ((= num 5) (interval-widen number-interval (* mag 0.5))) (else (interval-widen number-interval (* mag 0.25)))) )) (define-public (adjust-slash-stencil num forward stencil mag) (if forward (cond ((= num 2) (ly:stencil-translate stencil (cons (* mag -0.00) (* mag 0.2)))) ((= num 3) (ly:stencil-translate stencil (cons (* mag -0.00) (* mag 0.2)))) ;; ((= num 5) ;; (ly:stencil-translate stencil (cons (* mag -0.00) (* mag -0.07)))) ;; ((= num 7) ;; (ly:stencil-translate stencil (cons (* mag -0.00) (* mag -0.15)))) (else stencil)) (cond ((= num 6) (ly:stencil-translate stencil (cons (* mag -0.00) (* mag 0.15)))) ;; ((= num 8) ;; (ly:stencil-translate stencil (cons (* mag -0.00) (* mag -0.15)))) (else stencil)) ) ) (define (slashed-digit-internal layout props num forward font-size thickness) (let* ((mag (magstep font-size)) (thickness (* mag (ly:output-def-lookup layout 'line-thickness) thickness)) ;; backward slashes might use slope and point in the other direction! (dy (* mag (if forward 0.4 -0.4))) (number-stencil (interpret-markup layout (prepend-alist-chain 'font-encoding 'fetaText props) (number->string num))) (num-x (horizontal-slash-interval num forward (ly:stencil-extent number-stencil X) mag)) (center (interval-center (ly:stencil-extent number-stencil Y))) ;; Use the real extents of the slash, not the whole number, ;; because we might translate the slash later on! (num-y (interval-widen (cons center center) (abs dy))) (is-sane (and (interval-sane? num-x) (interval-sane? num-y))) (slash-stencil (if is-sane (make-line-stencil thickness (car num-x) (- (interval-center num-y) dy) (cdr num-x) (+ (interval-center num-y) dy)) #f))) (if (ly:stencil? slash-stencil) (begin ;; for some numbers we need to shift the slash/backslash up or ;; down to make the slashed digit look better (set! slash-stencil (adjust-slash-stencil num forward slash-stencil mag)) (set! number-stencil (ly:stencil-add number-stencil slash-stencil))) (ly:warning "Unable to create slashed digit ~a" num)) number-stencil)) (define-markup-command (slashed-digit layout props num) (integer?) #:category other #:properties ((font-size 0) (thickness 1.6)) " @cindex slashed digits A feta number, with slash. This is for use in the context of figured bass notation. @lilypond[verbatim,quote] \\markup { \\slashed-digit #5 \\hspace #2 \\override #'(thickness . 3) \\slashed-digit #7 } @end lilypond" (slashed-digit-internal layout props num #t font-size thickness)) (define-markup-command (backslashed-digit layout props num) (integer?) #:category other #:properties ((font-size 0) (thickness 1.6)) " @cindex backslashed digits A feta number, with backslash. This is for use in the context of figured bass notation. @lilypond[verbatim,quote] \\markup { \\backslashed-digit #5 \\hspace #2 \\override #'(thickness . 3) \\backslashed-digit #7 } @end lilypond" (slashed-digit-internal layout props num #f font-size thickness)) ;; eyeglasses (define eyeglassespath '((moveto 0.42 0.77) (rcurveto 0 0.304 -0.246 0.55 -0.55 0.55) (rcurveto -0.304 0 -0.55 -0.246 -0.55 -0.55) (rcurveto 0 -0.304 0.246 -0.55 0.55 -0.55) (rcurveto 0.304 0 0.55 0.246 0.55 0.55) (closepath) (moveto 2.07 0.77) (rcurveto 0 0.304 -0.246 0.55 -0.55 0.55) (rcurveto -0.304 0 -0.55 -0.246 -0.55 -0.55) (rcurveto 0 -0.304 0.246 -0.55 0.55 -0.55) (rcurveto 0.304 0 0.55 0.246 0.55 0.55) (closepath) (moveto 1.025 0.935) (rcurveto 0 0.182 -0.148 0.33 -0.33 0.33) (rcurveto -0.182 0 -0.33 -0.148 -0.33 -0.33) (moveto -0.68 0.77) (rlineto 0.66 1.43) (rcurveto 0.132 0.286 0.55 0.44 0.385 -0.33) (moveto 2.07 0.77) (rlineto 0.66 1.43) (rcurveto 0.132 0.286 0.55 0.44 0.385 -0.33))) (define-markup-command (eyeglasses layout props) () #:category other "Prints out eyeglasses, indicating strongly to look at the conductor. @lilypond[verbatim,quote] \\markup { \\eyeglasses } @end lilypond" (interpret-markup layout props (make-override-markup '(line-cap-style . butt) (make-path-markup 0.15 eyeglassespath)))) (define-markup-command (left-brace layout props size) (number?) #:category other " A feta brace in point size @var{size}. @lilypond[verbatim,quote] \\markup { \\left-brace #35 \\hspace #2 \\left-brace #45 } @end lilypond" (let* ((font (ly:paper-get-font layout (cons '((font-encoding . fetaBraces) (font-name . #f)) props))) (glyph-count (1- (ly:otf-glyph-count font))) (scale (ly:output-def-lookup layout 'output-scale)) (scaled-size (/ (ly:pt size) scale)) (glyph (lambda (n) (ly:font-get-glyph font (string-append "brace" (number->string n))))) (get-y-from-brace (lambda (brace) (interval-length (ly:stencil-extent (glyph brace) Y)))) (find-brace (binary-search 0 glyph-count get-y-from-brace scaled-size)) (glyph-found (glyph find-brace))) (if (or (null? (ly:stencil-expr glyph-found)) (< scaled-size (interval-length (ly:stencil-extent (glyph 0) Y))) (> scaled-size (interval-length (ly:stencil-extent (glyph glyph-count) Y)))) (begin (ly:warning (_ "no brace found for point size ~S ") size) (ly:warning (_ "defaulting to ~S pt") (/ (* scale (interval-length (ly:stencil-extent glyph-found Y))) (ly:pt 1))))) glyph-found)) (define-markup-command (right-brace layout props size) (number?) #:category other " A feta brace in point size @var{size}, rotated 180 degrees. @lilypond[verbatim,quote] \\markup { \\right-brace #45 \\hspace #2 \\right-brace #35 } @end lilypond" (interpret-markup layout props (markup #:rotate 180 #:left-brace size))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; the note command. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; TODO: better syntax. (define-markup-command (note-by-number layout props log dot-count dir) (number? number? number?) #:category music #:properties ((font-size 0) (flag-style '()) (style '())) " @cindex notes within text by log and dot-count Construct a note symbol, with stem and flag. By using fractional values for @var{dir}, longer or shorter stems can be obtained. Supports all note-head-styles. Ancient note-head-styles will get mensural-style-flags. @code{flag-style} may be overridden independently. Supported flag-styles are @code{default}, @code{old-straight-flag}, @code{modern-straight-flag}, @code{flat-flag}, @code{mensural} and @code{neomensural}. The latter two flag-styles will both result in mensural-flags. Both are supplied for convenience. @lilypond[verbatim,quote] \\markup { \\note-by-number #3 #0 #DOWN \\hspace #2 \\note-by-number #1 #2 #0.8 } @end lilypond" (define (get-glyph-name-candidates dir log style) (map (lambda (dir-name) (format #f "noteheads.~a~a" dir-name (if (and (symbol? style) (not (equal? 'default style))) (select-head-glyph style (min log 2)) (min log 2)))) (list (if (= dir UP) "u" "d") "s"))) (define (get-glyph-name font cands) (if (null? cands) "" (if (ly:stencil-empty? (ly:font-get-glyph font (car cands))) (get-glyph-name font (cdr cands)) (car cands)))) (define (buildflags flag-stencil remain curr-stencil spacing) ;; Function to recursively create a stencil with @code{remain} flags ;; from the single-flag stencil @code{curr-stencil}, which is already ;; translated to the position of the previous flag position. ;; ;; Copy and paste from /scm/flag-styles.scm (if (> remain 0) (let* ((translated-stencil (ly:stencil-translate-axis curr-stencil spacing Y)) (new-stencil (ly:stencil-add flag-stencil translated-stencil))) (buildflags new-stencil (- remain 1) translated-stencil spacing)) flag-stencil)) (define (straight-flag-mrkp flag-thickness flag-spacing upflag-angle upflag-length downflag-angle downflag-length dir) ;; Create a stencil for a straight flag. @var{flag-thickness} and ;; @var{flag-spacing} are given in staff spaces, @var{upflag-angle} and ;; @var{downflag-angle} are given in degrees, and @var{upflag-length} and ;; @var{downflag-length} are given in staff spaces. ;; ;; All lengths are scaled according to the font size of the note. ;; ;; From /scm/flag-styles.scm, modified to fit here. (let* ((stem-up (> dir 0)) ;; scale with the note size (factor (magstep font-size)) (stem-thickness (* factor 0.1)) (line-thickness (ly:output-def-lookup layout 'line-thickness)) (half-stem-thickness (/ (* stem-thickness line-thickness) 2)) (raw-length (if stem-up upflag-length downflag-length)) (angle (if stem-up upflag-angle downflag-angle)) (flag-length (+ (* raw-length factor) half-stem-thickness)) (flag-end (if (= angle 0) (cons flag-length (* half-stem-thickness dir)) (polar->rectangular flag-length angle))) (thickness (* flag-thickness factor)) (thickness-offset (cons 0 (* -1 thickness dir))) (spacing (* -1 flag-spacing factor dir)) (start (cons (- half-stem-thickness) (* half-stem-thickness dir))) (points (list start flag-end (offset-add flag-end thickness-offset) (offset-add start thickness-offset))) (stencil (ly:round-filled-polygon points half-stem-thickness)) ;; Log for 1/8 is 3, so we need to subtract 3 (flag-stencil (buildflags stencil (- log 3) stencil spacing))) flag-stencil)) (let* ((font (ly:paper-get-font layout (cons '((font-encoding . fetaMusic) (font-name . #f)) props))) (size-factor (magstep font-size)) (blot (ly:output-def-lookup layout 'blot-diameter)) (head-glyph-name (let ((result (get-glyph-name font (get-glyph-name-candidates (sign dir) log style)))) (if (string-null? result) ;; If no glyph name can be found, select default heads. ;; Though this usually means an unsupported style has been ;; chosen, it also prevents unrelated 'style settings from ;; other grobs (e.g., TextSpanner and TimeSignature) leaking ;; into markup. (get-glyph-name font (get-glyph-name-candidates (sign dir) log 'default)) result))) (head-glyph (ly:font-get-glyph font head-glyph-name)) (ancient-flags? (member style '(mensural neomensural petrucci semipetrucci blackpetrucci))) (attach-indices (ly:note-head::stem-attachment font head-glyph-name)) (stem-length (* size-factor (max 3 (- log 1)))) ;; With ancient-flags we want a tighter stem (stem-thickness (* size-factor (if ancient-flags? 0.1 0.13))) (stemy (* dir stem-length)) (attach-off (cons (interval-index (ly:stencil-extent head-glyph X) (* (sign dir) (car attach-indices))) ;; fixme, this is inconsistent between X & Y. (* (sign dir) (interval-index (ly:stencil-extent head-glyph Y) (cdr attach-indices))))) ;; For a tighter stem (with ancient-flags) the stem-width has to be ;; adjusted. (stem-X-corr (if (or ancient-flags? (member flag-style '(mensural neomensural))) (* 0.5 dir stem-thickness) 0)) (stem-glyph (and (> log 0) (ly:round-filled-box (ordered-cons (+ stem-X-corr (car attach-off)) (+ stem-X-corr (car attach-off) (* (- (sign dir)) stem-thickness))) (cons (min stemy (cdr attach-off)) (max stemy (cdr attach-off))) (/ stem-thickness 3)))) (dot (ly:font-get-glyph font "dots.dot")) (dotwid (interval-length (ly:stencil-extent dot X))) (dots (and (> dot-count 0) (apply ly:stencil-add (map (lambda (x) (ly:stencil-translate-axis dot (* 2 x dotwid) X)) (iota dot-count))))) ;; Straight-flags. Values taken from /scm/flag-style.scm (modern-straight-flag (straight-flag-mrkp 0.55 1 -18 1.1 22 1.2 dir)) (old-straight-flag (straight-flag-mrkp 0.55 1 -45 1.2 45 1.4 dir)) (flat-flag (straight-flag-mrkp 0.55 1.0 0 1.0 0 1.0 dir)) ;; Calculate a corrective to avoid a gap between ;; straight-flags and the stem. (flag-style-Y-corr (if (or (eq? flag-style 'modern-straight-flag) (eq? flag-style 'old-straight-flag) (eq? flag-style 'flat-flag)) (/ blot 10 (* -1 dir)) 0)) (flaggl (and (> log 2) (ly:stencil-translate (cond ((eq? flag-style 'modern-straight-flag) modern-straight-flag) ((eq? flag-style 'old-straight-flag) old-straight-flag) ((eq? flag-style 'flat-flag) flat-flag) (else (ly:font-get-glyph font (format #f (if (or (member flag-style '(mensural neomensural)) (and ancient-flags? (null? flag-style))) "flags.mensural~a2~a" "flags.~a~a") (if (> dir 0) "u" "d") log)))) (cons (+ (car attach-off) ;; For tighter stems (with ancient-flags) the ;; flag has to be adjusted different. (if (and (not ancient-flags?) (< dir 0)) stem-thickness 0)) (+ stemy flag-style-Y-corr)))))) ;; If there is a flag on an upstem and the stem is short, move the dots ;; to avoid the flag. 16th notes get a special case because their flags ;; hang lower than any other flags. ;; Not with ancient flags or straight-flags. (if (and dots (> dir 0) (> log 2) (or (eq? flag-style 'default) (null? flag-style)) (not ancient-flags?) (or (< dir 1.15) (and (= log 4) (< dir 1.3)))) (set! dots (ly:stencil-translate-axis dots 0.5 X))) (if flaggl (set! stem-glyph (ly:stencil-add flaggl stem-glyph))) (if (ly:stencil? stem-glyph) (set! stem-glyph (ly:stencil-add stem-glyph head-glyph)) (set! stem-glyph head-glyph)) (if (ly:stencil? dots) (set! stem-glyph (ly:stencil-add (ly:stencil-translate-axis dots (+ (cdr (ly:stencil-extent head-glyph X)) dotwid) X) stem-glyph))) stem-glyph)) (define-public log2 (let ((divisor (log 2))) (lambda (z) (inexact->exact (/ (log z) divisor))))) (define (parse-simple-duration duration-string) "Parse the `duration-string', e.g. ''4..'' or ''breve.'', and return a (log dots) list." (let ((match (regexp-exec (make-regexp "(breve|longa|maxima|[0-9]+)(\\.*)") duration-string))) (if (and match (string=? duration-string (match:substring match 0))) (let ((len (match:substring match 1)) (dots (match:substring match 2))) (list (cond ((string=? len "breve") -1) ((string=? len "longa") -2) ((string=? len "maxima") -3) (else (log2 (string->number len)))) (if dots (string-length dots) 0))) (ly:error (_ "not a valid duration string: ~a") duration-string)))) (define-markup-command (note layout props duration dir) (string? number?) #:category music #:properties (note-by-number-markup) " @cindex notes within text by string This produces a note with a stem pointing in @var{dir} direction, with the @var{duration} for the note head type and augmentation dots. For example, @code{\\note #\"4.\" #-0.75} creates a dotted quarter note, with a shortened down stem. @lilypond[verbatim,quote] \\markup { \\override #'(style . cross) { \\note #\"4..\" #UP } \\hspace #2 \\note #\"breve\" #0 } @end lilypond" (let ((parsed (parse-simple-duration duration))) (note-by-number-markup layout props (car parsed) (cadr parsed) dir))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; the rest command. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (rest-by-number layout props log dot-count) (number? number?) #:category music #:properties ((font-size 0) (style '()) (multi-measure-rest #f)) " @cindex rests or multi-measure-rests within text by log and dot-count A rest or multi-measure-rest symbol. @lilypond[verbatim,quote] \\markup { \\rest-by-number #3 #2 \\hspace #2 \\rest-by-number #0 #1 \\hspace #2 \\override #'(multi-measure-rest . #t) \\rest-by-number #0 #0 } @end lilypond" (define (get-glyph-name-candidates log style) (let* (;; Choose the style-string to be added. ;; If no glyph exists, select others for the specified styles ;; otherwise defaulting. (style-strg (cond ( ;; 'baroque needs to be special-cased, otherwise ;; `select-head-glyph´ would catch neomensural-glyphs for ;; this style, if (< log 0). (eq? style 'baroque) (string-append (number->string log) "")) ((eq? style 'petrucci) (string-append (number->string log) "mensural")) ;; In other cases `select-head-glyph´ from output-lib.scm ;; works for rest-glyphs, too. ((and (symbol? style) (not (eq? style 'default))) (select-head-glyph style log)) (else log))) ;; Choose ledgered glyphs for whole and half rest. ;; Except for the specified styles, logs and MultiMeasureRests. (ledger-style-rests (if (and (or (list? style) (not (member style '(neomensural mensural petrucci)))) (not multi-measure-rest) (or (= log 0) (= log 1))) "o" ""))) (format #f "rests.~a~a" style-strg ledger-style-rests))) (define (get-glyph-name font cands) (if (ly:stencil-empty? (ly:font-get-glyph font cands)) "" cands)) (let* ((font (ly:paper-get-font layout (cons '((font-encoding . fetaMusic) (font-name . #f)) props))) (rest-glyph-name (let ((result (get-glyph-name font (get-glyph-name-candidates log style)))) (if (string-null? result) ;; If no glyph name can be found, select default rests. Though ;; this usually means an unsupported style has been chosen, it ;; also prevents unrelated 'style settings from other grobs ;; (e.g., TextSpanner and TimeSignature) leaking into markup. (get-glyph-name font (get-glyph-name-candidates log 'default)) result))) (rest-glyph (ly:font-get-glyph font rest-glyph-name)) (dot (ly:font-get-glyph font "dots.dot")) (dot-width (interval-length (ly:stencil-extent dot X))) (dots (and (> dot-count 0) (apply ly:stencil-add (map (lambda (x) (ly:stencil-translate-axis dot (* 2 x dot-width) X)) (iota dot-count)))))) ;; Apart from mensural-, neomensural- and petrucci-style ledgered ;; glyphs are taken for whole and half rests. ;; If they are dotted, move the dots in X-direction to avoid collision. (if (and dots (< log 2) (>= log 0) (not (member style '(neomensural mensural petrucci)))) (set! dots (ly:stencil-translate-axis dots dot-width X))) ;; Add dots to the rest-glyph. ;; ;; Not sure how to vertical align dots. ;; For now the dots are centered for half, whole or longer rests. ;; Otherwise placed near the top of the rest. ;; ;; Dots for rests with (< log 0) dots are allowed, but not ;; if multi-measure-rest is set #t. (if (and (not multi-measure-rest) dots) (set! rest-glyph (ly:stencil-add (ly:stencil-translate dots (cons (+ (cdr (ly:stencil-extent rest-glyph X)) dot-width) (if (< log 2) (interval-center (ly:stencil-extent rest-glyph Y)) (- (interval-end (ly:stencil-extent rest-glyph Y)) (/ (* 2 dot-width) 3))))) rest-glyph))) rest-glyph)) (define-markup-command (rest layout props duration) (string?) #:category music #:properties ((style '()) (multi-measure-rest #f) (multi-measure-rest-number #t) (word-space 0.6)) " @cindex rests or multi-measure-rests within text by string This produces a rest, with the @var{duration} for the rest type and augmentation dots. @code{\"breve\"}, @code{\"longa\"} and @code{\"maxima\"} are valid input-strings. Printing MultiMeasureRests could be enabled with @code{\\override #'(multi-measure-rest . #t)} If MultiMeasureRests are taken, the MultiMeasureRestNumber is printed above. This is enabled for all styles using default-glyphs. Could be disabled with @code{\\override #'(multi-measure-rest-number . #f)} @lilypond[verbatim,quote] \\markup { \\rest #\"4..\" \\hspace #2 \\rest #\"breve\" \\hspace #2 \\override #'(multi-measure-rest . #t) { \\rest #\"7\" \\hspace #2 \\override #'(multi-measure-rest-number . #f) \\rest #\"7\" } } @end lilypond" ;; Get the number of mmr-glyphs. ;; Store them in a list. ;; example: (mmr-numbers 25) -> '(3 0 0 1) (define (mmr-numbers nmbr) (let* ((8-bar-glyph (floor (/ nmbr 8))) (8-remainder (remainder nmbr 8)) (4-bar-glyph (floor (/ 8-remainder 4))) (4-remainder (remainder nmbr 4)) (2-bar-glyph (floor (/ 4-remainder 2))) (2-remainder (remainder 4-remainder 2)) (1-bar-glyph (floor (/ 2-remainder 1)))) (list 8-bar-glyph 4-bar-glyph 2-bar-glyph 1-bar-glyph))) ;; Get the correct mmr-glyphs. ;; Store them in a list. ;; example: ;; (get-mmr-glyphs '(1 0 1 0) '("rests.M3" "rests.M2" "rests.M1" "rests.0")) ;; -> ("rests.M3" "rests.M1") (define (get-mmr-glyphs lst1 lst2) (define (helper l1 l2 l3) (if (null? l1) (reverse l3) (helper (cdr l1) (cdr l2) (append (make-list (car l1) (car l2)) l3)))) (helper lst1 lst2 '())) ;; If duration is not valid, print a warning and return empty-stencil (if (or (and (not (integer? (car (parse-simple-duration duration)))) (not multi-measure-rest)) (and (= (string-length (car (string-split duration #\. ))) 1) (= (string->number (car (string-split duration #\. ))) 0))) (begin (ly:warning (_ "not a valid duration string: ~a - ignoring") duration) empty-stencil) (let* ( ;; For simple rests: ;; Get a (log dots) list. (parsed (parse-simple-duration duration)) ;; Create the rest-stencil (stil (rest-by-number-markup layout props (car parsed) (cadr parsed))) ;; For MultiMeasureRests: ;; Get the duration-part of duration (dur-part-string (car (string-split duration #\. ))) ;; Get the duration of MMR: ;; If not a number (eg. "maxima") calculate it. (mmr-duration (or (string->number dur-part-string) (expt 2 (abs (car parsed))))) ;; Get a list of the correct number of each mmr-glyph. (count-mmr-glyphs-list (mmr-numbers mmr-duration)) ;; Create a list of mmr-stencils, ;; translating the glyph for a whole rest. (mmr-stils-list (map (lambda (x) (let ((single-mmr-stil (rest-by-number-markup layout props (* -1 x) 0))) (if (= x 0) (ly:stencil-translate-axis single-mmr-stil ;; Ugh, hard-coded, why 1? 1 Y) single-mmr-stil))) (get-mmr-glyphs count-mmr-glyphs-list (reverse (iota 4))))) ;; Adjust the space between the mmr-glyphs, ;; if not default-glyphs are used. (word-space (if (member style '(neomensural mensural petrucci)) (/ (* word-space 2) 3) word-space)) ;; Create the final mmr-stencil ;; via `stack-stencil-line´ from /scm/markup.scm (mmr-stil (stack-stencil-line word-space mmr-stils-list))) ;; Print the number above a multi-measure-rest ;; Depends on duration, style and multi-measure-rest-number set #t (if (and multi-measure-rest multi-measure-rest-number (> mmr-duration 1) (not (member style '(neomensural mensural petrucci)))) (let* ((mmr-stil-x-center (interval-center (ly:stencil-extent mmr-stil X))) (duration-markup (markup #:fontsize -2 #:override '(font-encoding . fetaText) (number->string mmr-duration))) (mmr-number-stil (interpret-markup layout props duration-markup)) (mmr-number-stil-x-center (interval-center (ly:stencil-extent mmr-number-stil X)))) (set! mmr-stil (ly:stencil-combine-at-edge mmr-stil Y UP (ly:stencil-translate-axis mmr-number-stil (- mmr-stil-x-center mmr-number-stil-x-center) X) ;; Ugh, hardcoded 0.8)))) (if multi-measure-rest mmr-stil stil)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; fermata markup ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (fermata layout props) () #:category music #:properties ((direction UP)) "Create a fermata glyph. When @var{direction} is @code{DOWN}, use an inverted glyph. Note that within music, one would usually use the @code{\\fermata} articulation instead of a markup. @lilypond[verbatim,quote] { c''1^\\markup \\fermata d''1_\\markup \\fermata } \\markup { \\fermata \\override #`(direction . ,DOWN) \\fermata } @end lilypond " (interpret-markup layout props (if (eqv? direction DOWN) (markup #:musicglyph "scripts.dfermata") (markup #:musicglyph "scripts.ufermata")))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; translating. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (lower layout props amount arg) (number? markup?) #:category align " @cindex lowering text Lower @var{arg} by the distance @var{amount}. A negative @var{amount} indicates raising; see also @code{\\raise}. @lilypond[verbatim,quote] \\markup { one \\lower #3 two three } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout props arg) (- amount) Y)) (define-markup-command (translate-scaled layout props offset arg) (number-pair? markup?) #:category align #:properties ((font-size 0)) " @cindex translating text @cindex scaling text Translate @var{arg} by @var{offset}, scaling the offset by the @code{font-size}. @lilypond[verbatim,quote] \\markup { \\fontsize #5 { * \\translate #'(2 . 3) translate \\hspace #2 * \\translate-scaled #'(2 . 3) translate-scaled } } @end lilypond" (let* ((factor (magstep font-size)) (scaled (cons (* factor (car offset)) (* factor (cdr offset))))) (ly:stencil-translate (interpret-markup layout props arg) scaled))) (define-markup-command (raise layout props amount arg) (number? markup?) #:category align " @cindex raising text Raise @var{arg} by the distance @var{amount}. A negative @var{amount} indicates lowering, see also @code{\\lower}. The argument to @code{\\raise} is the vertical displacement amount, measured in (global) staff spaces. @code{\\raise} and @code{\\super} raise objects in relation to their surrounding markups. If the text object itself is positioned above or below the staff, then @code{\\raise} cannot be used to move it, since the mechanism that positions it next to the staff cancels any shift made with @code{\\raise}. For vertical positioning, use the @code{padding} and/or @code{extra-offset} properties. @lilypond[verbatim,quote] \\markup { C \\small \\bold \\raise #1.0 9/7+ } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout props arg) amount Y)) (define-markup-command (fraction layout props arg1 arg2) (markup? markup?) #:category other #:properties ((font-size 0)) " @cindex creating text fractions Make a fraction of two markups. @lilypond[verbatim,quote] \\markup { π ≈ \\fraction 355 113 } @end lilypond" (let* ((m1 (interpret-markup layout props arg1)) (m2 (interpret-markup layout props arg2)) (factor (magstep font-size)) (boxdimen (cons (* factor -0.05) (* factor 0.05))) (padding (* factor 0.2)) (baseline (* factor 0.6)) (offset (* factor 0.75))) (set! m1 (ly:stencil-aligned-to m1 X CENTER)) (set! m2 (ly:stencil-aligned-to m2 X CENTER)) (let* ((x1 (ly:stencil-extent m1 X)) (x2 (ly:stencil-extent m2 X)) (line (ly:round-filled-box (interval-union x1 x2) boxdimen 0.0)) ;; should stack mols separately, to maintain LINE on baseline (stack (stack-lines DOWN padding baseline (list m1 line m2)))) (set! stack (ly:stencil-aligned-to stack Y CENTER)) (set! stack (ly:stencil-aligned-to stack X LEFT)) ;; should have EX dimension ;; empirical anyway (ly:stencil-translate-axis stack offset Y)))) (define-markup-command (normal-size-super layout props arg) (markup?) #:category font #:properties ((font-size 0)) " @cindex setting superscript in standard font size Set @var{arg} in superscript with a normal font size. @lilypond[verbatim,quote] \\markup { default \\normal-size-super { superscript in standard size } } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout props arg) (* 1.0 (magstep font-size)) Y)) (define-markup-command (super layout props arg) (markup?) #:category font #:properties ((font-size 0)) " @cindex superscript text Set @var{arg} in superscript. @lilypond[verbatim,quote] \\markup { E = \\concat { mc \\super 2 } } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout (cons `((font-size . ,(- font-size 3))) props) arg) (* 1.0 (magstep font-size)) ; original font-size Y)) (define-markup-command (translate layout props offset arg) (number-pair? markup?) #:category align " @cindex translating text Translate @var{arg} relative to its surroundings. @var{offset} is a pair of numbers representing the displacement in the X and Y axis. @lilypond[verbatim,quote] \\markup { * \\translate #'(2 . 3) \\line { translated two spaces right, three up } } @end lilypond" (ly:stencil-translate (interpret-markup layout props arg) offset)) (define-markup-command (sub layout props arg) (markup?) #:category font #:properties ((font-size 0)) " @cindex subscript text Set @var{arg} in subscript. @lilypond[verbatim,quote] \\markup { \\concat { H \\sub { 2 } O } } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout (cons `((font-size . ,(- font-size 3))) props) arg) (* -0.75 (magstep font-size)) ; original font-size Y)) (define-markup-command (normal-size-sub layout props arg) (markup?) #:category font #:properties ((font-size 0)) " @cindex setting subscript in standard font size Set @var{arg} in subscript with a normal font size. @lilypond[verbatim,quote] \\markup { default \\normal-size-sub { subscript in standard size } } @end lilypond" (ly:stencil-translate-axis (interpret-markup layout props arg) (* -0.75 (magstep font-size)) Y)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; brackets. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (hbracket layout props arg) (markup?) #:category graphic " @cindex placing horizontal brackets around text Draw horizontal brackets around @var{arg}. @lilypond[verbatim,quote] \\markup { \\hbracket { \\line { one two three } } } @end lilypond" (let ((th 0.1) ;; todo: take from GROB. (m (interpret-markup layout props arg))) (bracketify-stencil m X th (* 2.5 th) th))) (define-markup-command (bracket layout props arg) (markup?) #:category graphic " @cindex placing vertical brackets around text Draw vertical brackets around @var{arg}. @lilypond[verbatim,quote] \\markup { \\bracket { \\note #\"2.\" #UP } } @end lilypond" (let ((th 0.1) ;; todo: take from GROB. (m (interpret-markup layout props arg))) (bracketify-stencil m Y th (* 2.5 th) th))) (define-markup-command (parenthesize layout props arg) (markup?) #:category graphic #:properties ((angularity 0) (padding) (size 1) (thickness 1) (width 0.25)) " @cindex placing parentheses around text Draw parentheses around @var{arg}. This is useful for parenthesizing a column containing several lines of text. @lilypond[verbatim,quote] \\markup { \\line { \\parenthesize { \\column { foo bar } } \\override #'(angularity . 2) { \\parenthesize { \\column { bah baz } } } } } @end lilypond" (let* ((m (interpret-markup layout props arg)) (scaled-width (* size width)) (scaled-thickness (* (chain-assoc-get 'line-thickness props 0.1) thickness)) (half-thickness (min (* size 0.5 scaled-thickness) (* (/ 4 3.0) scaled-width))) (padding (chain-assoc-get 'padding props half-thickness))) (parenthesize-stencil m half-thickness scaled-width angularity padding))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Delayed markup evaluation ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (page-ref layout props label gauge default) (symbol? markup? markup?) #:category other " @cindex referencing page numbers in text Reference to a page number. @var{label} is the label set on the referenced page (using the @code{\\label} command), @var{gauge} a markup used to estimate the maximum width of the page number, and @var{default} the value to display when @var{label} is not found. (If the current book or bookpart is set to use roman numerals for page numbers, the reference will be formatted accordingly -- in which case the @var{gauge}'s width may require additional tweaking.)" (let* ((gauge-stencil (interpret-markup layout props gauge)) (x-ext (ly:stencil-extent gauge-stencil X)) (y-ext (ly:stencil-extent gauge-stencil Y))) (ly:stencil-add (make-transparent-box-stencil x-ext y-ext)) (ly:make-stencil `(delay-stencil-evaluation ,(delay (ly:stencil-expr (let* ((table (ly:output-def-lookup layout 'label-page-table)) (page-number (if (list? table) (assoc-get label table) #f)) (number-type (ly:output-def-lookup layout 'page-number-type)) (page-markup (if page-number (number-format number-type page-number) default)) (page-stencil (interpret-markup layout props page-markup)) (gap (- (interval-length x-ext) (interval-length (ly:stencil-extent page-stencil X))))) (interpret-markup layout props (markup #:hspace gap page-markup)))))) x-ext y-ext))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; scaling ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (scale layout props factor-pair arg) (number-pair? markup?) #:category graphic " @cindex scaling markup @cindex mirroring markup Scale @var{arg}. @var{factor-pair} is a pair of numbers representing the scaling-factor in the X and Y axes. Negative values may be used to produce mirror images. @lilypond[verbatim,quote] \\markup { \\line { \\scale #'(2 . 1) stretched \\scale #'(1 . -1) mirrored } } @end lilypond" (let ((stil (interpret-markup layout props arg)) (sx (car factor-pair)) (sy (cdr factor-pair))) (ly:stencil-scale stil sx sy))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Repeating ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (pattern layout props count axis space pattern) (integer? integer? number? markup?) #:category other " Prints @var{count} times a @var{pattern} markup. Patterns are spaced apart by @var{space}. Patterns are distributed on @var{axis}. @lilypond[verbatim, quote] \\markup \\column { \"Horizontally repeated :\" \\pattern #7 #X #2 \\flat \\null \"Vertically repeated :\" \\pattern #3 #Y #0.5 \\flat } @end lilypond" (let ((pattern-width (interval-length (ly:stencil-extent (interpret-markup layout props pattern) X))) (new-props (prepend-alist-chain 'word-space 0 (prepend-alist-chain 'baseline-skip 0 props)))) (let loop ((i (1- count)) (patterns (markup))) (if (zero? i) (interpret-markup layout new-props (if (= axis X) (markup patterns pattern) (markup #:column (patterns pattern)))) (loop (1- i) (if (= axis X) (markup patterns pattern #:hspace space) (markup #:column (patterns pattern #:vspace space)))))))) (define-markup-command (fill-with-pattern layout props space dir pattern left right) (number? ly:dir? markup? markup? markup?) #:category align #:properties ((word-space) (line-width)) " Put @var{left} and @var{right} in a horizontal line of width @code{line-width} with a line of markups @var{pattern} in between. Patterns are spaced apart by @var{space}. Patterns are aligned to the @var{dir} markup. @lilypond[verbatim, quote] \\markup \\column { \"right-aligned :\" \\fill-with-pattern #1 #RIGHT . first right \\fill-with-pattern #1 #RIGHT . second right \\null \"center-aligned :\" \\fill-with-pattern #1.5 #CENTER - left right \\null \"left-aligned :\" \\override #'(line-width . 50) \\fill-with-pattern #2 #LEFT : left first \\override #'(line-width . 50) \\fill-with-pattern #2 #LEFT : left second } @end lilypond" (let* ((pattern-x-extent (ly:stencil-extent (interpret-markup layout props pattern) X)) (pattern-width (interval-length pattern-x-extent)) (left-width (interval-length (ly:stencil-extent (interpret-markup layout props left) X))) (right-width (interval-length (ly:stencil-extent (interpret-markup layout props right) X))) (middle-width (max 0 (- line-width (+ (+ left-width right-width) (* word-space 2))))) (period (+ space pattern-width)) (count (truncate (/ (- middle-width pattern-width) period))) (x-offset (+ (* (- (- middle-width (* count period)) pattern-width) (/ (1+ dir) 2)) (abs (car pattern-x-extent))))) (interpret-markup layout props (markup left #:with-dimensions (cons 0 middle-width) '(0 . 0) #:translate (cons x-offset 0) #:pattern (1+ count) X space pattern right)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Replacements ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-markup-command (replace layout props replacements arg) (list? markup?) #:category font " Used to automatically replace a string by another in the markup @var{arg}. Each pair of the alist @var{replacements} specifies what should be replaced. The @code{key} is the string to be replaced by the @code{value} string. @lilypond[verbatim, quote] \\markup \\replace #'((\"thx\" . \"Thanks!\")) thx @end lilypond" (interpret-markup layout (internal-add-text-replacements props replacements) (markup arg))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Markup list commands ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define-public (space-lines baseline stils) (let space-stil ((stils stils) (result (list))) (if (null? stils) (reverse! result) (let* ((stil (car stils)) (dy-top (max (- (/ baseline 1.5) (interval-bound (ly:stencil-extent stil Y) UP)) 0.0)) (dy-bottom (max (+ (/ baseline 3.0) (interval-bound (ly:stencil-extent stil Y) DOWN)) 0.0)) (new-stil (ly:make-stencil (ly:stencil-expr stil) (ly:stencil-extent stil X) (cons (- (interval-bound (ly:stencil-extent stil Y) DOWN) dy-bottom) (+ (interval-bound (ly:stencil-extent stil Y) UP) dy-top))))) (space-stil (cdr stils) (cons new-stil result)))))) (define-markup-list-command (justified-lines layout props args) (markup-list?) #:properties ((baseline-skip) wordwrap-internal-markup-list) " @cindex justifying lines of text Like @code{\\justify}, but return a list of lines instead of a single markup. Use @code{\\override-lines #'(line-width . @var{X})} to set the line width; @var{X}@tie{}is the number of staff spaces." (space-lines baseline-skip (interpret-markup-list layout props (make-wordwrap-internal-markup-list #t args)))) (define-markup-list-command (wordwrap-lines layout props args) (markup-list?) #:properties ((baseline-skip) wordwrap-internal-markup-list) "Like @code{\\wordwrap}, but return a list of lines instead of a single markup. Use @code{\\override-lines #'(line-width . @var{X})} to set the line width, where @var{X} is the number of staff spaces." (space-lines baseline-skip (interpret-markup-list layout props (make-wordwrap-internal-markup-list #f args)))) (define-markup-list-command (column-lines layout props args) (markup-list?) #:properties ((baseline-skip)) "Like @code{\\column}, but return a list of lines instead of a single markup. @code{baseline-skip} determines the space between each markup in @var{args}." (space-lines baseline-skip (interpret-markup-list layout props args))) (define-markup-list-command (override-lines layout props new-prop args) (pair? markup-list?) "Like @code{\\override}, for markup lists." (interpret-markup-list layout (cons (list new-prop) props) args)) (define-markup-list-command (table layout props column-align lst) (number-list? markup-list?) #:properties ((padding 0) (baseline-skip)) "@cindex creating a table. Returns a table. @var{column-align} specifies how each column is aligned, possible values are -1, 0, 1. The number of elements in @var{column-align} determines how many columns will be printed. The entries to print are given by @var{lst}, a markup-list. If needed, the last row is filled up with @code{point-stencil}s. Overriding @code{padding} may be used to increase columns horizontal distance. Overriding @code{baseline-skip} to increase rows vertical distance. @lilypond[verbatim,quote] \\markuplist { \\override #'(padding . 2) \\table #'(0 1 0 -1) { \\underline { center-aligned right-aligned center-aligned left-aligned } one \number 1 thousandth \number 0.001 eleven \number 11 hundredth \number 0.01 twenty \number 20 tenth \number 0.1 thousand \number 1000 one \number 1.0 } } @end lilypond " (define (split-lst initial-lst lngth result-lst) ;; split a list into a list of sublists of length lngth ;; eg. (split-lst '(1 2 3 4 5 6) 2 '()) ;; -> ((1 2) (3 4) (5 6)) (cond ((not (integer? (/ (length initial-lst) lngth))) (ly:warning "Can't split list of length ~a into ~a parts, returning empty list" (length initial-lst) lngth) '()) ((null? initial-lst) (reverse result-lst)) (else (split-lst (drop initial-lst lngth) lngth (cons (take initial-lst lngth) result-lst))))) (define (dists-list init padding lst) ;; Returns a list, where each element of `lst' is ;; added to the sum of the previous elements of `lst' plus padding. ;; `init' will be the first element of the resulting list. The addition ;; starts with the values of `init', `padding' and `(car lst)'. ;; eg. (dists-list 0.01 0.1 '(1 2 3 4))) ;; -> (0.01 1.11 3.21 6.31 10.41) (if (or (not (number? init)) (not (number? padding)) (not (number-list? lst))) (begin (ly:warning "not fitting argument for `dists-list', return empty lst ") '()) (reverse (fold (lambda (elem rl) (cons (+ elem padding (car rl)) rl)) (list init) lst)))) (let* (;; get the number of columns (columns (length column-align)) (init-stils (interpret-markup-list layout props lst)) ;; If the given markup-list is the result of a markup-list call, their ;; length may not be easily predictable, thus we add point-stencils ;; to fill last row of the table. (rem (remainder (length init-stils) columns)) (filled-stils (if (zero? rem) init-stils (append init-stils (make-list (- columns rem) point-stencil)))) ;; get the stencils in sublists of length `columns' (stils (split-lst filled-stils columns '())) ;; procedure to return stencil-length ;; If it is nan, return 0 (lengths-proc (lambda (m) (let ((lngth (interval-length (ly:stencil-extent m X)))) (if (nan? lngth) 0 lngth)))) ;; get the max width of each column in a list (columns-max-x-lengths (map (lambda (x) (apply max 0 (map lengths-proc (map (lambda (l) (list-ref l x)) stils)))) (iota columns))) ;; create a list of (basic) distances, which each column should ;; moved, using `dists-list'. Some padding may be added. (dist-sequence (dists-list 0 padding columns-max-x-lengths)) ;; Get all stencils of a row, moved accurately to build columns. ;; If the items of a column are aligned other than left, we need to ;; move them to avoid collisions: ;; center aligned: move all items half the width of the widest item ;; right aligned: move all items the full width of the widest item. ;; Added to the default-offset calculated in `dist-sequence'. ;; `stencils-for-row-proc' needs four arguments: ;; stil - a stencil ;; dist - a numerical value as basic offset in X direction ;; column - a numerical value for the column we're in ;; x-align - a numerical value how current column should be ;; aligned, where (-1, 0, 1) means (LEFT, CENTER, RIGHT) (stencils-for-row-proc (lambda (stil dist column x-align) (ly:stencil-translate-axis (ly:stencil-aligned-to stil X x-align) (cond ((member x-align '(0 1)) (let* (;; get the stuff for relevant column (stuff-for-column (map (lambda (s) (list-ref s column)) stils)) ;; get length of every column-item (lengths-for-column (map lengths-proc stuff-for-column)) (widest (apply max 0 lengths-for-column))) (+ dist (/ widest (if (= x-align 0) 2 1))))) (else dist)) X))) ;; get a list of rows using `ly:stencil-add' on a list of stencils (rows (map (lambda (stil-list) (apply ly:stencil-add (map ;; the procedure creating the stencils: stencils-for-row-proc ;; the procedure's args: stil-list dist-sequence (iota columns) column-align))) stils))) (space-lines baseline-skip rows))) (define-markup-list-command (map-markup-commands layout props compose args) (procedure? markup-list?) "This applies the function @var{compose} to every markup in @var{args} (including elements of markup list command calls) in order to produce a new markup list. Since the return value from a markup list command call is not a markup list but rather a list of stencils, this requires passing those stencils off as the results of individual markup calls. That way, the results should work out as long as no markups rely on side effects." (let ((key (make-symbol "key"))) (catch key (lambda () ;; if `compose' does not actually interpret its markup ;; argument, we still need to return a list of stencils, ;; created from the single returned stencil (list (interpret-markup layout props (compose (make-on-the-fly-markup (lambda (layout props m) ;; here all effects of `compose' on the ;; properties should be visible, so we ;; call interpret-markup-list at this ;; point of time and harvest its ;; stencils (throw key (interpret-markup-list layout props args))) (make-null-markup)))))) (lambda (key stencils) (map (lambda (sten) (interpret-markup layout props (compose (make-stencil-markup sten)))) stencils)))))