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typesetting/quad/quadwriter/render.rkt

505 lines
22 KiB
Racket

#lang debug racket/base
(require racket/match
racket/contract
racket/file
racket/string
racket/sequence
racket/list
racket/dict
pitfall
quad
hyphenate
pollen/decode
sugar/coerce
sugar/list
"attrs.rkt"
"param.rkt"
"font.rkt"
"struct.rkt"
"break.rkt"
"draw.rkt"
"string.rkt"
"image.rkt"
"log.rkt"
"line.rkt"
"page.rkt"
"para.rkt"
"section.rkt"
"doc.rkt"
"column.rkt"
"keep.rkt"
"debug.rkt"
"query.rkt")
(provide (all-defined-out))
(define (setup-pdf-path pdf-path-arg)
;; convert pathlike arg into nice complete path.
(path->complete-path
(simplify-path
(expand-user-path
(->path
(match pdf-path-arg
;; a #false arg signals that we're going to return the bytes directly,
;; so we use a temp path to write the file, and we'll delete it later.
[#false (build-path (find-system-path 'temp-dir) "quadwriter-temp.pdf")]
[path path]))))))
(define (handle-hyphenate q)
;; find quads that want hyphenation and split them into smaller pieces
;; do this before ->string-quad so that it can handle the sizing promises
(cond
[(and (quad-ref q :hyphenate) (pair? (quad-elems q)) (andmap string? (quad-elems q)))
(for*/list ([str (in-list (quad-elems q))]
[hyphen-char (in-value #\u00AD)]
[hstr (in-value (hyphenate str hyphen-char
#:min-left-length 3
#:min-right-length 3))]
[substr (in-list (regexp-match* (regexp (string hyphen-char)) hstr #:gap-select? #t))])
(struct-copy quad q [elems (list substr)]))]
[else (list q)]))
(define (string->feature-list str)
(define pcs (string-split str))
(unless (even? (length pcs))
(raise-argument-error 'string->feature-list "even number of tags and values" pcs))
(for/list ([kv (in-slice 2 pcs)])
(cons (match (first kv)
[(? string? k) (string->bytes/utf-8 k)]
[k (raise-argument-error 'string->feature-list "string" k)])
(match (string->number (second kv))
[(? number? num) num]
[v (raise-argument-error 'string->feature-list "number string" v)]))))
(define (parse-font-features! attrs)
;; `font-features` are OpenType font feature specifiers.
(define font-features-previous-key 'font-features-previous)
(define features-previous (hash-ref attrs font-features-previous-key empty))
(define val (hash-ref attrs :font-features #false))
(when (string? val)
(hash-set! attrs :font-features
(cond
[(regexp-match #px"^\\s*\\+ " val)
;; adjustment: parse the feature string and append to the previous feature set
(define parsed-features (string->feature-list (string-trim (string-trim val) "+")))
(remove-duplicates (append parsed-features features-previous) bytes=? #:key car)]
;; replacement of previous feature string
[else (string->feature-list val)]))
(hash-set! attrs font-features-previous-key (hash-ref attrs :font-features))))
(module+ test
(require rackunit)
;; feature replacement
(define attrs (make-hash '((font-features-previous '((#"smcp" . 1))))))
(hash-set! attrs :font-features " liga 0 ")
(parse-font-features! attrs)
(check-equal? (hash-ref attrs :font-features) '((#"liga" . 0)))
;; feature append
(hash-set! attrs :font-features " + calt 1 ")
(parse-font-features! attrs)
(check-equal? (sort (hash-ref attrs :font-features) bytes<? #:key car) '((#"calt" . 1)(#"liga" . 0))))
(define (parse-dimension-strings! attrs)
;; certain attributes can be "dimension strings", which are strings like "3in" or "4.2cm"
;; we parse them into the equivalent measurement in points.
(for ([k (in-hash-keys attrs)]
#:when (takes-dimension-string? k))
(hash-update! attrs k (λ (val) (parse-dimension val attrs))))
attrs)
(define (downcase-values! attrs)
;; make attribute values lowercase, unless they're case-sensitive
;; so we can check them more easily later.
(for ([k (in-hash-keys attrs)]
#:unless (has-case-sensitive-value? k))
(hash-update! attrs k (λ (val) (match val
[(? string? str) (string-downcase str)]
[_ val]))))
attrs)
(define (complete-every-path! attrs)
;; convert every pathlike thing to a complete path (string, because it's inside an attr)
;; so we don't get tripped up later by relative paths
;; relies on `current-directory` being parameterized to source file's dir
(for ([k (in-hash-keys attrs)]
#:when (takes-path? k))
(hash-update! attrs k (compose1 path->string path->complete-path)))
attrs)
(define (handle-cascading-attrs attrs)
;; various housekeeping on attributes as they are propagated downward during atomization.
(for ([proc (in-list (list downcase-values!
complete-every-path!
resolve-font-path!
resolve-font-size!
;; we resolve dimension strings after font size
;; because they can be denoted relative to em size
parse-dimension-strings!
parse-font-features!))])
(proc attrs)))
(define (drop-leading-breaks qs)
;; any leading breaks are pointless at the start of the doc, so drop them.
;; How would we get these?
;; we might, for instance, have a first-level heading style that is specified with page break before.
;; so if we invoke that style first, we will get a page break.
(dropf qs break-quad?))
(define (generic->typed-quad q)
;; replaces quads representing certain things
;; with special typed quads representing those things.
;; Because typed quads have their own predicates,
;; it's faster to find them in wrapping operations
(cond
[(convert-break-quad q)]
[(convert-draw-quad q)]
[(quad-ref q :image-file) (convert-image-quad q)]
[else (convert-string-quad q)]))
#;(define (extract-defined-quads qs)
(define (get-define-val q) (quad-ref q 'define))
(define-values (dqs not-dqs) (partition get-define-val qs))
(for ([dq-group (in-list (group-by get-define-val dqs))])
(hash-set! (current-named-quads) (get-define-val (car dq-group)) dq-group))
not-dqs)
(define default-line-height-multiplier 1.42)
(define (setup-qs qx-arg base-dir)
;; convert our input Q-expression into a useful form.
;; some typographic niceties
(define qexpr (decode qx-arg
#:string-proc (compose1 smart-ellipses smart-dashes)
#:txexpr-proc smart-quotes))
;; apply some default styling attributes.
;; These will only be used if the underlying q-expression hasn't specified its own values,
;; which will naturally override these.
(define q
(qexpr->quad (list 'q (list->attrs
:font-family default-font-family
:font-size (number->string default-font-size)
:font-features default-font-features
:line-height (number->string (floor (* default-line-height-multiplier default-font-size)))) qexpr)))
(setup-font-path-table! base-dir)
(let* ([qs (atomize q
#:attrs-proc handle-cascading-attrs
#:missing-glyph-action 'fallback
#:fallback "fallback"
#:emoji "fallback-emoji"
#:math "fallback-math"
#:font-path-resolver resolve-font-path!)]
[qs (time-log hyphenate (apply append (map handle-hyphenate qs)))]
[qs (map generic->typed-quad qs)]
[qs (drop-leading-breaks qs)]
#;[qs (extract-defined-quads qs)]
[qs (insert-first-line-indents qs)])
qs))
(define (setup-margins qs page-width page-height)
;; if only left or right margin is provided, copy other value in preference to default margin
(define q (car qs))
(define default-side-margin (min (* 72 1.5) (floor (* .20 page-width))))
(define default-top-margin (min 72 (floor (* .10 page-height))))
(define left (cond
[(debug-x-margin)]
[(quad-ref q :page-margin-left)]
[(quad-ref q :page-margin-right)]
[else default-side-margin]))
(define right (cond
[(debug-x-margin)]
[(quad-ref q :page-margin-right)]
[(quad-ref q :page-margin-left)]
[else default-side-margin]))
(define top (cond
[(debug-y-margin)]
[(quad-ref q :page-margin-top)]
[(quad-ref q :page-margin-bottom)]
[else default-top-margin]))
(define bottom (cond
[(debug-y-margin)]
[(quad-ref q :page-margin-bottom)]
[else
(define vert-optical-adjustment 10)
(+ vert-optical-adjustment
(cond
[(quad-ref q :page-margin-top)]
[else (* default-top-margin 1.4)]))]))
(list left top right bottom))
(define default-column-count 1)
(define (setup-column-count qs)
(define cc (or (debug-column-count) (quad-ref (car qs) :column-count default-column-count)))
(unless (exact-nonnegative-integer? cc)
(raise-argument-error 'render-pdf "positive integer" cc))
cc)
(define default-column-gap 36)
(define (setup-column-gap qs)
(or (debug-column-gap) (quad-ref (car qs) :column-gap default-column-gap)))
(define (setup-pdf-metadata! qs pdf)
(define kv-dict
(cons
(cons 'Creator (format "Racket ~a [Quad ~a]" (version) (pkg-checksum "quad" #:short #true)))
(for*/list ([(k pdf-k) (in-dict (list (cons :pdf-title 'Title)
(cons :pdf-author 'Author)
(cons :pdf-subject 'Subject)
(cons :pdf-keywords 'Keywords)))]
[str (in-value (and (pair? qs) (quad-ref (car qs) k)))]
#:when str)
(cons pdf-k str))))
(for ([(k v) (in-dict kv-dict)])
(hash-set! (pdf-info pdf) k v)))
(define (footnote-flow? q) (equal? (quad-ref q 'flow) "footnote"))
(define (make-lines qs line-wrap-size)
(define-values (fn-qs main-qs) (partition footnote-flow? qs))
(define line-qs (time-log line-wrap (apply-keeps (line-wrap main-qs line-wrap-size))))
(define fn-line-qs (time-log fn-line-wrap (apply-keeps (line-wrap fn-qs line-wrap-size))))
(values line-qs fn-line-qs))
(define (make-columns line-qs fn-line-qs line-wrap-size printable-height column-gap)
(define col-quad-prototype (quad-copy column-quad q:column
[size (pt line-wrap-size printable-height)]))
(time-log column-wrap (column-wrap line-qs fn-line-qs printable-height column-gap col-quad-prototype)))
(define (make-pages column-qs
left-margin
top-margin
gutter-margin
line-wrap-size
printable-width
printable-height)
(define (page-quad-prototype page-count)
(define left-shift (+ left-margin (if (odd? page-count) gutter-margin 0)))
(quad-copy page-quad q:page
[shift (pt left-shift top-margin)]
[size (pt line-wrap-size printable-height)]))
(time-log page-wrap (page-wrap column-qs printable-width page-quad-prototype)))
(define (make-sections all-qs)
(for/fold ([sections-acc null]
#:result (reverse sections-acc))
([qs (in-list (filter-split all-qs section-break-quad?))])
;; section properties
(match-define (list page-width page-height) (parse-page-size (and (pair? qs) (car qs))))
(match-define (list left-margin top-margin right-margin bottom-margin)
(setup-margins qs page-width page-height))
(define gutter-margin (and (pair? qs) (quad-ref (car qs) :page-margin-gutter 0)))
(define printable-width (- page-width left-margin right-margin gutter-margin))
(define printable-height (- page-height top-margin bottom-margin))
(define column-count (setup-column-count qs))
(define column-gap (setup-column-gap qs))
(define line-wrap-size (/ (- printable-width (* (sub1 column-count) column-gap)) column-count))
;; layout actions
(define-values (line-qs fn-line-qs) (make-lines qs line-wrap-size))
(define column-qs (make-columns line-qs fn-line-qs line-wrap-size printable-height column-gap))
(define section-starting-side (string->symbol (quad-ref (car qs) :page-side-start "right")))
(define insert-blank-page?
(and (pair? qs)
;; if we need a 'left page and will get 'right (or vice versa) then insert page
(let ([next-page-side (if (even? (add1 (section-pages-used))) 'left 'right)])
(not (eq? section-starting-side next-page-side)))))
;; update page count before starting page wrap
(when insert-blank-page?
(section-pages-used (add1 (section-pages-used))))
(define section-pages (make-pages column-qs
left-margin
top-margin
gutter-margin
line-wrap-size
printable-width
printable-height))
(begin0
(cond
;; ignore empty section
[(zero? (length section-pages)) sections-acc]
[insert-blank-page?
(match section-starting-side
['left
;; blank page goes at beginning of current section
(define page-from-current-section (car section-pages))
(define blank-page (quad-copy page-quad page-from-current-section [elems null]))
(define new-section (quad-copy section-quad q:section [elems (cons blank-page section-pages)]))
(cons new-section sections-acc)]
[_ ;; must be 'right
;; blank page goes at end of previous section (if it exists)
(define new-section (quad-copy section-quad q:section [elems section-pages]))
(match sections-acc
[(cons previous-section other-sections)
(define previous-section-pages (quad-elems previous-section))
;; we know previous section has pages because we ignore empty sections
(define page-from-previous-section (car previous-section-pages))
(define blank-page (quad-copy page-quad page-from-previous-section [elems null]))
(define updated-previous-section
(quad-update! previous-section
[elems (append previous-section-pages (list blank-page))]))
(list* new-section updated-previous-section other-sections)]
[_ (list new-section)])])]
[else (define new-section (quad-copy section-quad q:section [elems section-pages]) )
(cons new-section sections-acc)])
(section-pages-used (+ (section-pages-used) (length section-pages))))))
(define (wants-repeat? x) (and (quad? x) (quad-ref x :repeat)))
(define (resolve-repeaters doc)
(define qi (make-query-index doc))
;; extract the quads that want repeats
(define repeat-wanter-acc null)
(let loop ([x doc])
(match x
[(? quad?) (define-values (repeat-wanters others)
(partition wants-repeat? (quad-elems x)))
(when (pair? repeat-wanters)
(set! repeat-wanter-acc (append repeat-wanter-acc repeat-wanters))
(quad-update! x [elems others]))
(map loop others)]
[_ x]))
;; then put them where they want to go
;; if the query has no result, then the quad doesn't get replaced (ie. disappears)
;; which seems like the right outcome.
(for* ([rq (in-list repeat-wanter-acc)]
[query-str (in-value (quad-ref rq :repeat))]
#:when query-str
[query-matches (in-value (query qi query-str rq))]
#:when query-matches
[query-match (in-list query-matches)])
(quad-update! query-match [elems (append (quad-elems query-match) (list (quad-copy quad rq)))]))
doc)
(define (wants-parent? x) (and (quad? x) (quad-ref x :anchor-parent)))
(define (resolve-parents doc)
;; we make our index now so that it includes the quads that want parents
;; so if we come across `this` as a subscript, we can resolve it
;; by reference to the parent-wanting quad
(define qi (make-query-index doc))
;; extract the quads that want parents
(define parent-wanter-acc null)
(let loop ([x doc])
(match x
[(? quad?) (define-values (parent-wanters others)
(partition wants-parent? (quad-elems x)))
(when (pair? parent-wanters)
(set! parent-wanter-acc (append parent-wanter-acc parent-wanters))
(quad-update! x [elems others]))
(map loop others)]
[_ x]))
;; then put them where they want to go
;; if the query has no result, then the quad doesn't get replaced (ie. disappears)
;; which seems like the right outcome.
(for* ([wp (in-list parent-wanter-acc)]
[query-str (in-value (quad-ref wp :anchor-parent))]
#:when query-str
[parent (in-value (query qi query-str wp))]
#:when parent)
(quad-update! parent [elems (append (quad-elems parent) (list wp))]))
doc)
(define (correct-line-alignment doc)
;; correct lines with inner / outer alignment
;; all inner / outer lines are initially filled as if they were right-aligned
;; on odd (right-hand) pages, inner becomes 0 (and on left-hand, outer becomes 0)
(for* ([section (in-list (quad-elems doc))]
[(page page-idx) (in-indexed (quad-elems section))]
#:when (page-quad? page))
(define right-side? (odd? (add1 page-idx)))
(define zero-filler-side (if right-side? "inner" "outer"))
(let loop ([x page])
(cond
[(and (line-quad? x)
(equal? zero-filler-side (quad-ref x :line-align))
(filler-quad? (car (quad-elems x))))
;; collapse the filler quad by setting size to 0
(set-quad-size! (car (quad-elems x)) (pt 0 0))]
[(quad? x) (for-each loop (quad-elems x))])))
doc)
(define/contract (render-pdf qx-arg
[pdf-path-arg #false]
[base-dir-arg #false]
#:replace [replace-existing-file? #t]
#:compress [compress? #t])
((qexpr?) ((or/c #false path? path-string?)
(or/c #false path? path-string?)
#:replace boolean? #:compress boolean?) . ->* . (or/c void? bytes?))
;; The principal public interface to rendering.
;; `qx-arg` is the Q-expression to be rendered.
;; `pdf-path-arg` is the destination of the generated PDF.
;; #false signals that we should return the PDF bytes rather than saving.
;; `base-dir-arg` is the starting point for resolving any relative pathnames,
;; and looking for fonts and other assets.
(define base-dir (let ([maybe-dir (cond
;; for reasons unclear, DrRacket sometimes sneaks
;; an "unsaved editor" into base-dir-arg, despite efforts
;; probably my fault
[(equal? base-dir-arg "unsaved editor") pdf-path-arg]
[base-dir-arg]
[pdf-path-arg]
[else (current-directory)])])
(match maybe-dir
[(? directory-exists? dir) dir]
[_ (define-values (dir name _) (split-path maybe-dir))
dir])))
(unless (directory-exists? base-dir)
(raise-argument-error 'render-pdf "existing directory" base-dir))
(define pdf-path (setup-pdf-path pdf-path-arg))
(unless replace-existing-file?
(when (file-exists? pdf-path)
(raise-argument-error 'render-pdf "path that doesn't exist" pdf-path)))
;; `make-pdf` creates a PDF data structure using the pitfall library.
;; this structure provides some services as we lay out the document,
;; and then when we render, we'll rely on pitfall's PDF-drawing routines.
(parameterize ([current-pdf (make-pdf #:compress compress?
#:auto-first-page #false
#:output-path pdf-path)]
;; set `current-directory` so that ops like `path->complete-path`
;; will be handled relative to the original directory
[current-directory base-dir]
;; a lot of operations need to look at pages used so it's easier to
;; make it a parameter than endlessly pass it around as an argument.
[section-pages-used 0]
[verbose-quad-printing? #false]
#;[current-named-quads (make-hash)]) ; for ease of debugging; not mandatory
(define qs (time-log setup-qs (setup-qs qx-arg base-dir)))
(setup-pdf-metadata! qs (current-pdf))
;; all the heavy lifting happens inside `make-sections`
;; which calls out to `make-pages`, `make-columns`, and so on.
(define doc (let ([doc (quad-update! q:doc [elems (make-sections qs)])])
(time-log prep-doc (let* ([doc (correct-line-alignment doc)]
[doc (resolve-repeaters doc)]
[doc (resolve-parents doc)])
doc))))
;; call `position` and `draw` separately so we can print a timer for each
(define positioned-doc (time-log position (position doc)))
;; drawing implies that a PDF is written to disk
(time-log draw (draw positioned-doc (current-pdf))))
(if pdf-path-arg
(log-quadwriter-info (format "wrote PDF to ~a" pdf-path))
(begin0
(file->bytes pdf-path)
(delete-file pdf-path))))