/usr/share/lilypond/2.18.2/scm/lily-library.scm is in lilypond-data 2.18.2-4.
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The actual contents of the file can be viewed below.
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;;;;
;;;; Copyright (C) 1998--2012 Jan Nieuwenhuizen <janneke@gnu.org>
;;;; Han-Wen Nienhuys <hanwen@xs4all.nl>
;;;;
;;;; 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 <http://www.gnu.org/licenses/>.
;; for take, drop, take-while, list-index, and find-tail:
(use-modules (srfi srfi-1))
;; for define-safe-public when byte-compiling using Guile V2
(use-modules (scm safe-utility-defs))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; constants.
(define-public X 0)
(define-public Y 1)
(define-safe-public START -1)
(define-safe-public STOP 1)
(define-public LEFT -1)
(define-public RIGHT 1)
(define-public UP 1)
(define-public DOWN -1)
(define-public CENTER 0)
(define-safe-public DOUBLE-FLAT-QTS -4)
(define-safe-public THREE-Q-FLAT-QTS -3)
(define-safe-public FLAT-QTS -2)
(define-safe-public SEMI-FLAT-QTS -1)
(define-safe-public NATURAL-QTS 0)
(define-safe-public SEMI-SHARP-QTS 1)
(define-safe-public SHARP-QTS 2)
(define-safe-public THREE-Q-SHARP-QTS 3)
(define-safe-public DOUBLE-SHARP-QTS 4)
(define-safe-public SEMI-TONE-QTS 2)
(define-safe-public DOUBLE-FLAT -1)
(define-safe-public THREE-Q-FLAT -3/4)
(define-safe-public FLAT -1/2)
(define-safe-public SEMI-FLAT -1/4)
(define-safe-public NATURAL 0)
(define-safe-public SEMI-SHARP 1/4)
(define-safe-public SHARP 1/2)
(define-safe-public THREE-Q-SHARP 3/4)
(define-safe-public DOUBLE-SHARP 1)
(define-safe-public SEMI-TONE 1/2)
(define-safe-public INFINITY-INT 1000000)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; moments
(define-public ZERO-MOMENT (ly:make-moment 0 1))
(define-public (moment-min a b)
(if (ly:moment<? a b) a b))
(define-public (moment<=? a b)
(or (equal? a b)
(ly:moment<? a b)))
(define-public (fraction->moment fraction)
(if (null? fraction)
ZERO-MOMENT
(ly:make-moment (car fraction) (cdr fraction))))
(define-public (moment->fraction moment)
(cons (ly:moment-main-numerator moment)
(ly:moment-main-denominator moment)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; durations
(define-public (duration-log-factor lognum)
"Given a logarithmic duration number, return the length of the duration,
as a number of whole notes."
(or (and (exact? lognum) (integer? lognum))
(scm-error 'wrong-type-arg "duration-log-factor" "Not an integer: ~S" (list lognum) #f))
(if (<= lognum 0)
(ash 1 (- lognum))
(/ (ash 1 lognum))))
(define-public (duration-dot-factor dotcount)
"Given a count of the dots used to extend a musical duration, return
the numeric factor by which they increase the duration."
(or (and (exact? dotcount) (integer? dotcount) (>= dotcount 0))
(scm-error 'wrong-type-arg "duration-dot-factor" "Not a count: ~S" (list dotcount) #f))
(- 2 (/ (ash 1 dotcount))))
(define-public (duration-length dur)
"Return the overall length of a duration, as a number of whole
notes. (Not to be confused with ly:duration-length, which returns a
less-useful moment object.)"
(ly:moment-main (ly:duration-length dur)))
(define-public (duration-visual dur)
"Given a duration object, return the visual part of the duration (base
note length and dot count), in the form of a duration object with
non-visual scale factor 1."
(ly:make-duration (ly:duration-log dur) (ly:duration-dot-count dur) 1))
(define-public (duration-visual-length dur)
"Given a duration object, return the length of the visual part of the
duration (base note length and dot count), as a number of whole notes."
(duration-length (duration-visual dur)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; arithmetic
(define-public (average x . lst)
(/ (+ x (apply + lst)) (1+ (length lst))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; parser <-> output hooks.
(define-public (collect-bookpart-for-book parser book-part)
"Toplevel book-part handler."
(define (add-bookpart book-part)
(ly:parser-define!
parser 'toplevel-bookparts
(cons book-part (ly:parser-lookup parser 'toplevel-bookparts))))
;; If toplevel scores have been found before this \bookpart,
;; add them first to a dedicated bookpart
(if (pair? (ly:parser-lookup parser 'toplevel-scores))
(begin
(add-bookpart (ly:make-book-part
(ly:parser-lookup parser 'toplevel-scores)))
(ly:parser-define! parser 'toplevel-scores (list))))
(add-bookpart book-part))
(define-public (collect-scores-for-book parser score)
(ly:parser-define!
parser 'toplevel-scores
(cons score (ly:parser-lookup parser 'toplevel-scores))))
(define-public (collect-music-aux score-handler parser music)
(define (music-property symbol)
(ly:music-property music symbol #f))
(cond ((music-property 'page-marker)
;; a page marker: set page break/turn permissions or label
(let ((label (music-property 'page-label)))
(if (symbol? label)
(score-handler (ly:make-page-label-marker label))))
(for-each (lambda (symbol)
(let ((permission (music-property symbol)))
(if (symbol? permission)
(score-handler
(ly:make-page-permission-marker symbol
(if (eq? 'forbid permission)
'()
permission))))))
'(line-break-permission page-break-permission
page-turn-permission)))
((not (music-property 'void))
;; a regular music expression: make a score with this music
;; void music is discarded
(score-handler (scorify-music music parser)))))
(define-public (collect-music-for-book parser music)
"Top-level music handler."
(collect-music-aux (lambda (score)
(collect-scores-for-book parser score))
parser
music))
(define-public (collect-book-music-for-book parser book music)
"Book music handler."
(collect-music-aux (lambda (score)
(ly:book-add-score! book score))
parser
music))
(define-public (scorify-music music parser)
"Preprocess @var{music}."
(ly:make-score
(fold (lambda (f m) (f m parser))
music
toplevel-music-functions)))
(define (get-current-filename parser book)
"return any suffix value for output filename allowing for settings by
calls to bookOutputName function"
(or (paper-variable parser book 'output-filename)
(ly:parser-output-name parser)))
(define (get-current-suffix parser book)
"return any suffix value for output filename allowing for settings by calls to
bookoutput function"
(let ((book-output-suffix (paper-variable parser book 'output-suffix)))
(if (not (string? book-output-suffix))
(ly:parser-lookup parser 'output-suffix)
book-output-suffix)))
(define-public current-outfile-name #f) ; for use by regression tests
(define (get-outfile-name parser book)
"return current filename for generating backend output files"
;; user can now override the base file name, so we have to use
;; the file-name concatenated with any potential output-suffix value
;; as the key to out internal a-list
(let* ((base-name (get-current-filename parser book))
(output-suffix (get-current-suffix parser book))
(alist-key (format #f "~a~a" base-name output-suffix))
(counter-alist (ly:parser-lookup parser 'counter-alist))
(output-count (assoc-get alist-key counter-alist 0))
(result base-name))
;; Allow all ASCII alphanumerics, including accents
(if (string? output-suffix)
(set! result
(format #f "~a-~a"
result
(string-regexp-substitute
"[^-[:alnum:]]"
"_"
output-suffix))))
;; assoc-get call will always have returned a number
(if (> output-count 0)
(set! result (format #f "~a-~a" result output-count)))
(ly:parser-define!
parser 'counter-alist
(assoc-set! counter-alist alist-key (1+ output-count)))
(set! current-outfile-name result)
result))
(define (print-book-with parser book process-procedure)
(let* ((paper (ly:parser-lookup parser '$defaultpaper))
(layout (ly:parser-lookup parser '$defaultlayout))
(outfile-name (get-outfile-name parser book)))
(process-procedure book paper layout outfile-name)))
(define-public (print-book-with-defaults parser book)
(print-book-with parser book ly:book-process))
(define-public (print-book-with-defaults-as-systems parser book)
(print-book-with parser book ly:book-process-to-systems))
;; Add a score to the current bookpart, book or toplevel
(define-public (add-score parser score)
(cond
((ly:parser-lookup parser '$current-bookpart)
((ly:parser-lookup parser 'bookpart-score-handler)
(ly:parser-lookup parser '$current-bookpart) score))
((ly:parser-lookup parser '$current-book)
((ly:parser-lookup parser 'book-score-handler)
(ly:parser-lookup parser '$current-book) score))
(else
((ly:parser-lookup parser 'toplevel-score-handler) parser score))))
(define-public paper-variable
(let
((get-papers
(lambda (parser book)
(append (if (and book (ly:output-def? (ly:book-paper book)))
(list (ly:book-paper book))
'())
(ly:parser-lookup parser '$papers)
(list (ly:parser-lookup parser '$defaultpaper))))))
(make-procedure-with-setter
(lambda (parser book symbol)
(any (lambda (p) (ly:output-def-lookup p symbol #f))
(get-papers parser book)))
(lambda (parser book symbol value)
(ly:output-def-set-variable!
(car (get-papers parser book))
symbol value)))))
(define-public (add-text parser text)
(add-score parser (list text)))
(define-public (add-music parser music)
(collect-music-aux (lambda (score)
(add-score parser score))
parser
music))
(define-public (context-mod-from-music parser music)
(let ((warn #t) (mods (ly:make-context-mod)))
(let loop ((m music))
(if (music-is-of-type? m 'layout-instruction-event)
(let ((symbol (ly:music-property m 'symbol)))
(ly:add-context-mod
mods
(case (ly:music-property m 'name)
((PropertySet)
(list 'assign
symbol
(ly:music-property m 'value)))
((PropertyUnset)
(list 'unset symbol))
((OverrideProperty)
(cons* 'push
symbol
(ly:music-property m 'grob-value)
(cond
((ly:music-property m 'grob-property #f) => list)
(else
(ly:music-property m 'grob-property-path)))))
((RevertProperty)
(cons* 'pop
symbol
(cond
((ly:music-property m 'grob-property #f) => list)
(else
(ly:music-property m 'grob-property-path))))))))
(case (ly:music-property m 'name)
((ApplyContext)
(ly:add-context-mod mods
(list 'apply
(ly:music-property m 'procedure))))
((ContextSpeccedMusic)
(loop (ly:music-property m 'element)))
(else
(let ((callback (ly:music-property m 'elements-callback)))
(if (procedure? callback)
(for-each loop (callback m))
(if (and warn (ly:duration? (ly:music-property m 'duration)))
(begin
(ly:music-warning
music
(_ "Music unsuitable for context-mod"))
(set! warn #f)))))))))
mods))
(define-public (context-defs-from-music parser output-def music)
(let ((warn #t))
(let loop ((m music) (mods #f))
;; The parser turns all sets, overrides etc into something
;; wrapped in ContextSpeccedMusic. If we ever get a set,
;; override etc that is not wrapped in ContextSpeccedMusic, the
;; user has created it in Scheme himself without providing the
;; required wrapping. In that case, using #f in the place of a
;; context modification results in a reasonably recognizable
;; error.
(if (music-is-of-type? m 'layout-instruction-event)
(ly:add-context-mod
mods
(case (ly:music-property m 'name)
((PropertySet)
(list 'assign
(ly:music-property m 'symbol)
(ly:music-property m 'value)))
((PropertyUnset)
(list 'unset
(ly:music-property m 'symbol)))
((OverrideProperty)
(cons* 'push
(ly:music-property m 'symbol)
(ly:music-property m 'grob-value)
(cond
((ly:music-property m 'grob-property #f) => list)
(else
(ly:music-property m 'grob-property-path)))))
((RevertProperty)
(cons* 'pop
(ly:music-property m 'symbol)
(cond
((ly:music-property m 'grob-property #f) => list)
(else
(ly:music-property m 'grob-property-path)))))))
(case (ly:music-property m 'name)
((ApplyContext)
(ly:add-context-mod mods
(list 'apply
(ly:music-property m 'procedure))))
((ContextSpeccedMusic)
;; Use let* here to let defs catch up with modifications
;; to the context defs made in the recursion
(let* ((mods (loop (ly:music-property m 'element)
(ly:make-context-mod)))
(defs (ly:output-find-context-def
output-def (ly:music-property m 'context-type))))
(if (null? defs)
(ly:music-warning
music
(ly:format (_ "Cannot find context-def \\~a")
(ly:music-property m 'context-type)))
(for-each
(lambda (entry)
(ly:output-def-set-variable!
output-def (car entry)
(ly:context-def-modify (cdr entry) mods)))
defs))))
(else
(let ((callback (ly:music-property m 'elements-callback)))
(if (procedure? callback)
(fold loop mods (callback m))
(if (and warn (ly:duration? (ly:music-property m 'duration)))
(begin
(ly:music-warning
music
(_ "Music unsuitable for output-def"))
(set! warn #f))))))))
mods)))
;;;;;;;;;;;;;;;;
;; alist
(define-public assoc-get ly:assoc-get)
(define-public chain-assoc-get ly:chain-assoc-get)
(define-public (uniqued-alist alist acc)
(if (null? alist) acc
(if (assoc (caar alist) acc)
(uniqued-alist (cdr alist) acc)
(uniqued-alist (cdr alist) (cons (car alist) acc)))))
(define-public (alist<? x y)
(string<? (symbol->string (car x))
(symbol->string (car y))))
(define (map-alist-vals func list)
"map FUNC over the vals of LIST, leaving the keys."
(if (null? list)
'()
(cons (cons (caar list) (func (cdar list)))
(map-alist-vals func (cdr list)))))
(define (map-alist-keys func list)
"map FUNC over the keys of an alist LIST, leaving the vals."
(if (null? list)
'()
(cons (cons (func (caar list)) (cdar list))
(map-alist-keys func (cdr list)))))
(define-public (first-member members lst)
"Return first successful member (of member) from @var{members} in
@var{lst}."
(any (lambda (m) (member m lst)) members))
(define-public (first-assoc keys lst)
"Return first successful assoc of key from @var{keys} in @var{lst}."
(any (lambda (k) (assoc k lst)) keys))
(define-public (flatten-alist alist)
(if (null? alist)
'()
(cons (caar alist)
(cons (cdar alist)
(flatten-alist (cdr alist))))))
(define-public (map-selected-alist-keys function keys alist)
"Return @var{alist} with @var{function} applied to all of the values
in list @var{keys}.
For example:
@example
@code{guile> (map-selected-alist-keys - '(a b) '((a . 1) (b . -2) (c . 3) (d . 4)))}
@code{((a . -1) (b . 2) (c . 3) (d . 4)}
@end example"
(define (map-selected-alist-keys-helper key alist)
(map
(lambda (pair)
(if (equal? key (car pair))
(cons key (function (cdr pair)))
pair))
alist))
(fold map-selected-alist-keys-helper alist keys))
;;;;;;;;;;;;;;;;
;; vector
(define-public (vector-for-each proc vec)
(do
((i 0 (1+ i)))
((>= i (vector-length vec)) vec)
(vector-set! vec i (proc (vector-ref vec i)))))
;;;;;;;;;;;;;;;;
;; hash
(define-public (hash-table->alist t)
(hash-fold acons '() t))
;; todo: code dup with C++.
(define-safe-public (alist->hash-table lst)
"Convert alist to table"
(let ((m (make-hash-table (length lst))))
(for-each (lambda (k-v) (hashq-set! m (car k-v) (cdr k-v))) lst)
m))
;;;;;;;;;;;;;;;;
;; list
(define (functional-or . rest)
(any identity rest))
(define (functional-and . rest)
(every identity rest))
(define (split-list lst n)
"Split LST in N equal sized parts"
(define (helper todo acc-vector k)
(if (null? todo)
acc-vector
(begin
(if (< k 0)
(set! k (+ n k)))
(vector-set! acc-vector k (cons (car todo) (vector-ref acc-vector k)))
(helper (cdr todo) acc-vector (1- k)))))
(helper lst (make-vector n '()) (1- n)))
(define (list-element-index lst x)
(list-index (lambda (m) (equal? m x)) lst))
(define-public (count-list lst)
"Given @var{lst} as @code{(E1 E2 .. )}, return
@code{((E1 . 1) (E2 . 2) ... )}."
(map cons lst (iota (length lst) 1)))
(define-public (list-join lst intermediate)
"Put @var{intermediate} between all elts of @var{lst}."
(fold-right
(lambda (elem prev)
(if (pair? prev)
(cons elem (cons intermediate prev))
(list elem)))
'() lst))
(define-public filtered-map filter-map)
(define-public (flatten-list x)
"Unnest list."
(let loop ((x x) (tail '()))
(cond ((list? x) (fold-right loop tail x))
((not (pair? x)) (cons x tail))
(else (loop (car x) (loop (cdr x) tail))))))
(define (list-minus a b)
"Return list of elements in A that are not in B."
(lset-difference eq? a b))
(define-public (uniq-list lst)
"Uniq @var{lst}, assuming that it is sorted. Uses @code{equal?}
for comparisons."
(reverse!
(fold (lambda (x acc)
(if (null? acc)
(list x)
(if (equal? x (car acc))
acc
(cons x acc))))
'() lst) '()))
(define (split-at-predicate pred lst)
"Split LST into two lists at the first element that returns #f for
(PRED previous_element element). Return the two parts as a pair.
Example: (split-at-predicate < '(1 2 3 2 1)) ==> ((1 2 3) . (2 1))"
(let ((i (and (pair? lst)
(list-index (lambda (x y) (not (pred x y)))
lst
(cdr lst)))))
(if i
(call-with-values
(lambda () (split-at lst (1+ i)))
cons)
(list lst))))
(define-public (split-list-by-separator lst pred)
"Split @var{lst} at each element that satisfies @var{pred}, and return
the parts (with the separators removed) as a list of lists. For example,
executing @samp{(split-list-by-separator '(a 0 b c 1 d) number?)} returns
@samp{((a) (b c) (d))}."
(call-with-values (lambda () (break pred lst))
(lambda (head tail)
(cons head
(if (null? tail)
tail
(split-list-by-separator (cdr tail) pred))))))
(define-public (offset-add a b)
(cons (+ (car a) (car b))
(+ (cdr a) (cdr b))))
(define-public (offset-flip-y o)
(cons (car o) (- (cdr o))))
(define-public (offset-scale o scale)
(cons (* (car o) scale)
(* (cdr o) scale)))
(define-public (ly:list->offsets accum coords)
(if (null? coords)
accum
(cons (cons (car coords) (cadr coords))
(ly:list->offsets accum (cddr coords)))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; intervals
(define-public empty-interval '(+inf.0 . -inf.0))
(define-public (symmetric-interval expr)
(cons (- expr) expr))
(define-public (interval-length x)
"Length of the number-pair @var{x}, if an interval."
(max 0 (- (cdr x) (car x))))
(define-public (ordered-cons a b)
(cons (min a b)
(max a b)))
(define-public (interval-bound interval dir)
((if (= dir RIGHT) cdr car) interval))
(define-public (interval-index interval dir)
"Interpolate @var{interval} between between left (@var{dir}=-1) and
right (@var{dir}=+1)."
(* (+ (interval-start interval) (interval-end interval)
(* dir (- (interval-end interval) (interval-start interval))))
0.5))
(define-public (interval-center x)
"Center the number-pair @var{x}, if an interval."
(if (interval-empty? x)
0.0
(/ (+ (car x) (cdr x)) 2)))
(define-public interval-start car)
(define-public interval-end cdr)
(define (other-axis a)
(remainder (+ a 1) 2))
(define-public (interval-scale iv factor)
(cons (* (car iv) factor)
(* (cdr iv) factor)))
(define-public (interval-widen iv amount)
(cons (- (car iv) amount)
(+ (cdr iv) amount)))
(define-public (interval-empty? iv)
(> (car iv) (cdr iv)))
(define-public (interval-union i1 i2)
(cons
(min (car i1) (car i2))
(max (cdr i1) (cdr i2))))
(define-public (interval-intersection i1 i2)
(cons
(max (car i1) (car i2))
(min (cdr i1) (cdr i2))))
(define-public (interval-sane? i)
(not (or (nan? (car i))
(inf? (car i))
(nan? (cdr i))
(inf? (cdr i))
(> (car i) (cdr i)))))
(define-public (add-point interval p)
(cons (min (interval-start interval) p)
(max (interval-end interval) p)))
(define-public (reverse-interval iv)
(cons (cdr iv) (car iv)))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; coordinates
(define coord-x car)
(define coord-y cdr)
(define (coord-operation operator operand coordinate)
(if (pair? operand)
(cons (operator (coord-x operand) (coord-x coordinate))
(operator (coord-y operand) (coord-y coordinate)))
(cons (operator operand (coord-x coordinate))
(operator operand (coord-y coordinate)))))
(define (coord-apply function coordinate)
(if (pair? function)
(cons
((coord-x function) (coord-x coordinate))
((coord-y function) (coord-y coordinate)))
(cons
(function (coord-x coordinate))
(function (coord-y coordinate)))))
(define-public (coord-translate coordinate amount)
(coord-operation + amount coordinate))
(define-public (coord-scale coordinate amount)
(coord-operation * amount coordinate))
(define-public (coord-rotate coordinate degrees-in-radians)
(let*
((coordinate
(cons
(exact->inexact (coord-x coordinate))
(exact->inexact (coord-y coordinate))))
(radius
(sqrt
(+ (* (coord-x coordinate) (coord-x coordinate))
(* (coord-y coordinate) (coord-y coordinate)))))
(angle (angle-0-2pi (atan (coord-y coordinate) (coord-x coordinate)))))
(cons
(* radius (cos (+ angle degrees-in-radians)))
(* radius (sin (+ angle degrees-in-radians))))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; trig
(define-public PI (* 4 (atan 1)))
(define-public TWO-PI (* 2 PI))
(define-public PI-OVER-TWO (/ PI 2))
(define-public THREE-PI-OVER-TWO (* 3 PI-OVER-TWO))
(define-public (cyclic-base-value value cycle)
"Take @var{value} and modulo-maps it between 0 and base @var{cycle}."
(if (< value 0)
(cyclic-base-value (+ value cycle) cycle)
(if (>= value cycle)
(cyclic-base-value (- value cycle) cycle)
value)))
(define-public (angle-0-2pi angle)
"Take @var{angle} (in radians) and maps it between 0 and 2pi."
(cyclic-base-value angle TWO-PI))
(define-public (angle-0-360 angle)
"Take @var{angle} (in degrees) and maps it between 0 and 360 degrees."
(cyclic-base-value angle 360.0))
(define-public PI-OVER-180 (/ PI 180))
(define-public (degrees->radians angle-degrees)
"Convert the given angle from degrees to radians."
(* angle-degrees PI-OVER-180))
(define-public (ellipse-radius x-radius y-radius angle)
(/
(* x-radius y-radius)
(sqrt
(+ (* (expt y-radius 2)
(* (cos angle) (cos angle)))
(* (expt x-radius 2)
(* (sin angle) (sin angle)))))))
(define-public (polar->rectangular radius angle-in-degrees)
"Return polar coordinates (@var{radius}, @var{angle-in-degrees})
as rectangular coordinates @ode{(x-length . y-length)}."
(let ((complex (make-polar
radius
(degrees->radians angle-in-degrees))))
(cons
(real-part complex)
(imag-part complex))))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; string
(define-public (string-endswith s suffix)
(equal? suffix (substring s
(max 0 (- (string-length s) (string-length suffix)))
(string-length s))))
(define-public (string-startswith s prefix)
(equal? prefix (substring s 0 (min (string-length s) (string-length prefix)))))
(define-public (string-encode-integer i)
(cond
((= i 0) "o")
((< i 0) (string-append "n" (string-encode-integer (- i))))
(else (string-append
(make-string 1 (integer->char (+ 65 (modulo i 26))))
(string-encode-integer (quotient i 26))))))
(define (number->octal-string x)
(let* ((n (inexact->exact x))
(n64 (quotient n 64))
(n8 (quotient (- n (* n64 64)) 8)))
(string-append
(number->string n64)
(number->string n8)
(number->string (remainder (- n (+ (* n64 64) (* n8 8))) 8)))))
(define-public (ly:inexact->string x radix)
(let ((n (inexact->exact x)))
(number->string n radix)))
(define-public (ly:number-pair->string c)
(string-append (ly:number->string (car c)) " "
(ly:number->string (cdr c))))
(define-public (dir-basename file . rest)
"Strip suffixes in @var{rest}, but leave directory component for
@var{file}."
(define (inverse-basename x y) (basename y x))
(simple-format #f "~a/~a" (dirname file)
(fold inverse-basename file rest)))
(define-public (write-me message x)
"Return @var{x}. Display @var{message} and write @var{x}.
Handy for debugging, possibly turned off."
(display message) (write x) (newline) x)
;; x)
(define-public (stderr string . rest)
(apply format (cons (current-error-port) (cons string rest)))
(force-output (current-error-port)))
(define-public (debugf string . rest)
(if #f
(apply stderr (cons string rest))))
(define (index-cell cell dir)
(if (equal? dir 1)
(cdr cell)
(car cell)))
(define (cons-map f x)
"map F to contents of X"
(cons (f (car x)) (f (cdr x))))
(define-public (list-insert-separator lst between)
"Create new list, inserting @var{between} between elements of @var{lst}."
(define (conc x y )
(if (eq? y #f)
(list x)
(cons x (cons between y))))
(fold-right conc #f lst))
(define-public (string-regexp-substitute a b str)
(regexp-substitute/global #f a str 'pre b 'post))
(define (regexp-split str regex)
(define matches '())
(define end-of-prev-match 0)
(define (notice match)
(set! matches (cons (substring (match:string match)
end-of-prev-match
(match:start match))
matches))
(set! end-of-prev-match (match:end match)))
(regexp-substitute/global #f regex str notice 'post)
(if (< end-of-prev-match (string-length str))
(set!
matches
(cons (substring str end-of-prev-match (string-length str)) matches)))
(reverse matches))
;;;;;;;;;;;;;;;;
;; other
(define (sign x)
(if (= x 0)
0
(if (< x 0) -1 1)))
(define-public (binary-search start end getter target-val)
(_i "Find the index between @var{start} and @var{end} (an integer)
which produces the closest match to @var{target-val} if
applied to function @var{getter}.")
(if (<= end start)
start
(let* ((compare (quotient (+ start end) 2))
(get-val (getter compare)))
(cond
((< target-val get-val)
(set! end (1- compare)))
((< get-val target-val)
(set! start (1+ compare))))
(binary-search start end getter target-val))))
(define-public (car< a b)
(< (car a) (car b)))
(define-public (car<= a b)
(<= (car a) (car b)))
(define-public (symbol<? lst r)
(string<? (symbol->string lst) (symbol->string r)))
(define-public (symbol-key<? lst r)
(string<? (symbol->string (car lst)) (symbol->string (car r))))
(define-public (eval-carefully symbol module . default)
"Check whether all symbols in expr @var{symbol} are reachable
in module @var{module}. In that case evaluate, otherwise
print a warning and set an optional @var{default}."
(let* ((unavailable? (lambda (sym)
(not (module-defined? module sym))))
(sym-unavailable
(filter
unavailable?
(filter symbol? (flatten-list symbol)))))
(if (null? sym-unavailable)
(eval symbol module)
(let* ((def (and (pair? default) (car default))))
(ly:programming-error
"cannot evaluate ~S in module ~S, setting to ~S"
(object->string symbol)
(object->string module)
(object->string def))
def))))
;;
;; don't confuse users with #<procedure .. > syntax.
;;
(define-public (scm->string val)
(if (and (procedure? val)
(symbol? (procedure-name val)))
(symbol->string (procedure-name val))
(string-append
(if (self-evaluating? val)
(if (string? val)
"\""
"")
"'")
(call-with-output-string (lambda (port) (display val port)))
(if (string? val)
"\""
""))))
(define-public (!= lst r)
(not (= lst r)))
(define-public lily-unit->bigpoint-factor
(cond
((equal? (ly:unit) "mm") (/ 72.0 25.4))
((equal? (ly:unit) "pt") (/ 72.0 72.27))
(else (ly:error (_ "unknown unit: ~S") (ly:unit)))))
(define-public lily-unit->mm-factor
(* 25.4 (/ lily-unit->bigpoint-factor 72)))
;;; FONT may be font smob, or pango font string...
(define-public (font-name-style font)
(if (string? font)
(string-downcase font)
(let* ((font-name (ly:font-name font))
(full-name (if font-name font-name (ly:font-file-name font))))
(string-downcase full-name))))
(define-public (modified-font-metric-font-scaling font)
(let* ((designsize (ly:font-design-size font))
(magnification (* (ly:font-magnification font)))
(scaling (* magnification designsize)))
(debugf "scaling:~S\n" scaling)
(debugf "magnification:~S\n" magnification)
(debugf "design:~S\n" designsize)
scaling))
(define-public (version-not-seen-message input-file-name)
(ly:warning-located
(ly:format "~a:1" input-file-name)
(_ "no \\version statement found, please add~afor future compatibility")
(format #f "\n\n\\version ~s\n\n" (lilypond-version))))
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