#lang racket/base (require xml txexpr sugar racket/match racket/list (prefix-in html: css-tools/html)) (require "debug.rkt" "world.rkt") (define+provide (to-string x) (if (string? x) x ; fast exit for strings (with-handlers ([exn:fail? (λ(exn) (error (format "Pollen parser: can't convert ~v to ~a" x 'string)))]) (cond [(equal? '() x) ""] [(symbol? x) (symbol->string x)] [(number? x) (number->string x)] [(path? x) (path->string x)] [(char? x) (format "~a" x)] [else (error)])))) ; put this last so other xexprish things don't get caught ;; decoder wireframe (define+provide/contract (decode txexpr #:txexpr-tag-proc [txexpr-tag-proc (λ(x)x)] #:txexpr-attrs-proc [txexpr-attrs-proc (λ(x)x)] #:txexpr-elements-proc [txexpr-elements-proc (λ(x)x)] #:block-txexpr-proc [block-txexpr-proc (λ(x)x)] #:inline-txexpr-proc [inline-txexpr-proc (λ(x)x)] #:string-proc [string-proc (λ(x)x)] #:symbol-proc [symbol-proc (λ(x)x)] #:valid-char-proc [valid-char-proc (λ(x)x)] #:cdata-proc [cdata-proc (λ(x)x)] #:exclude-tags [excluded-tags '()]) ((xexpr/c) (#:txexpr-tag-proc (txexpr-tag? . -> . txexpr-tag?) #:txexpr-attrs-proc (txexpr-attrs? . -> . txexpr-attrs?) #:txexpr-elements-proc (txexpr-elements? . -> . txexpr-elements?) #:block-txexpr-proc (block-txexpr? . -> . xexpr?) #:inline-txexpr-proc (txexpr? . -> . xexpr?) #:string-proc (string? . -> . xexpr?) #:symbol-proc (symbol? . -> . xexpr?) #:valid-char-proc (valid-char? . -> . xexpr?) #:cdata-proc (cdata? . -> . xexpr?) #:exclude-tags (listof symbol?) ) . ->* . txexpr?) (let loop ([x txexpr]) (cond [(txexpr? x) (let-values([(tag attrs elements) (txexpr->values x)]) (if (member tag excluded-tags) x ; because it's excluded ;; we apply processing here rather than do recursive descent on the pieces ;; because if we send them back through loop, certain element types are ambiguous ;; e.g., ((p "foo")) tests out as both txexpr-attrs and txexpr-elements (let ([decoded-txexpr (apply make-txexpr (list (txexpr-tag-proc tag) (txexpr-attrs-proc attrs) (map loop (txexpr-elements-proc elements))))]) ((if (block-txexpr? decoded-txexpr) block-txexpr-proc inline-txexpr-proc) decoded-txexpr))))] [(string? x) (string-proc x)] [(symbol? x) (symbol-proc x)] [(valid-char? x) (valid-char-proc x)] [(cdata? x) (cdata-proc x)] [else (error "decode: can't decode" x)]))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Blocks ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; initial set of block tags: from html (define+provide project-block-tags (make-parameter html:block-tags)) ;; tags are inline unless they're registered as block tags. (define+provide/contract (block-txexpr? x) (any/c . -> . boolean?) (and (txexpr? x) (member (get-tag x) (project-block-tags)) #t)) (define+provide/contract (register-block-tag tag) (txexpr-tag? . -> . void?) (project-block-tags (cons tag (project-block-tags)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Typography ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; (define (make-replacer query+replacement) (let ([queries (map car query+replacement)] [replacements (map second query+replacement)]) ;; reverse because first in list should be first applied to str (and compose1 works right-to-left) (apply compose1 (reverse (map (λ(query replacement) (λ(str) (regexp-replace* query str replacement))) queries replacements))))) (define+provide/contract (smart-dashes str) (string? . -> . string?) (define dashes ;; fix em dashes first, else they'll be mistaken for en dashes ;; \\s is whitespace + #\u00A0 is nonbreaking space '((#px"[\\s#\u00A0]*(---|—)[\\s#\u00A0]*" "—") ; em dash (#px"[\\s#\u00A0]*(--|–)[\\s#\u00A0]*" "–"))) ; en dash ((make-replacer dashes) str)) (define+provide/contract (smart-quotes str) (string? . -> . string?) (define quotes '((#px"(?<=\\w)'(?=\\w)" "’") ; apostrophe (#px"(?string #\u00A0)] #:minimum-word-length [minimum-word-length 6]) ((txexpr?) (#:nbsp string? #:minimum-word-length integer?) . ->* . txexpr?) ;; todo: parameterize this, as it will be different for each project (define tags-to-pay-attention-to '(p aside)) ; only apply to paragraphs (define (replace-last-space str) (if (#\space . in? . str) (let ([reversed-str-list (reverse (string->list str))] [reversed-nbsp (reverse (string->list (->string nbsp)))]) (define-values (last-word-chars other-chars) (splitf-at reversed-str-list (λ(i) (not (eq? i #\space))))) (define front-chars (if (< (len last-word-chars) minimum-word-length) ; OK for long words to be on their own line ; first char of other-chars will be the space, so use cdr (string-append (list->string (reverse (cdr other-chars))) (->string nbsp)) (list->string (reverse other-chars)))) `(,front-chars (span [[pollen "no-hyphens"]] ,(list->string (reverse last-word-chars))))) (list str))) (define (find-last-word-space x) ; recursively traverse xexpr (cond [(string? x) (replace-last-space x)] ; todo: this assumes a paragraph only has one string in it. [(txexpr? x) (let-values([(tag attr elements) (txexpr->values x)]) (if (> (length elements) 0) ; elements is list of xexprs (let-values ([(all-but-last last) (split-at elements (sub1 (length elements)))]) (define result (find-last-word-space (car last))) (define result-items (if (txexpr? result) (list result) result)) ; might be txexpr, or list of new elements (make-txexpr tag attr `(,@all-but-last ,@result-items))) x))] [else x])) (if ((car x) . in? . tags-to-pay-attention-to) (find-last-word-space x) x)) ; wrap initial quotes for hanging punctuation ; todo: improve this ; does not handle

thing properly (define+provide/contract (wrap-hanging-quotes nx #:single-prepend [single-pp '(squo)] #:double-prepend [double-pp '(dquo)]) ((txexpr?) (#:single-prepend list? #:double-prepend list?) . ->* . txexpr?) (define two-or-more-char-string? (λ(i) (and (string? i) (>= (len i) 2)))) (define-values (tag attr elements) (txexpr->values nx)) (make-txexpr tag attr (if (and (list? elements) (not (empty? elements))) (let ([new-car-elements (match (car elements) [(? two-or-more-char-string? tcs) (define str-first (get tcs 0)) (define str-rest (get tcs 1 'end)) (cond [(str-first . in? . '("\"" "“")) ;; can wrap with any inline tag ;; so that linebreak detection etc still works `(,@double-pp ,(->string #\“) ,str-rest)] [(str-first . in? . '("\'" "‘")) `(,@single-pp ,(->string #\‘) ,str-rest)] [else tcs])] [(? txexpr? nx) (wrap-hanging-quotes nx)] [else (car elements)])]) (cons new-car-elements (cdr elements))) elements))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Lines, blocks, paragraphs ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; turn the right items into
tags (define+provide/contract (detect-linebreaks xc #:separator [newline world:linebreak-separator] #:insert [linebreak '(br)]) ((txexpr-elements?) (#:separator string? #:insert xexpr?) . ->* . txexpr-elements?) ;; todo: should this test be not block + not whitespace? (define not-block? (λ(i) (not (block-txexpr? i)))) (filter-not empty? (for/list ([i (len xc)]) (let ([item (get xc i)]) (cond ;; skip first and last [(or (= i 0) (= i (sub1 (len xc)))) item] [(equal? item newline) (match (get xc (- i 1) (+ i 2)) ; a three-element slice with x[i] in the middle ;; only convert if neither adjacent tag is a block ;; (because blocks automatically force a newline before & after) [(list (? not-block?) newline (? not-block?)) linebreak] [else empty])] ; otherwise delete [else item]))))) ;; recursive whitespace test (define+provide/contract (whitespace? x) (any/c . -> . coerce/boolean?) (cond [(equal? "" x) #t] ; empty string is deemed whitespace [(or (string? x) (symbol? x)) (regexp-match #px"^\\s+$" (->string x))] [(or (list? x) (vector? x)) (andmap whitespace? (->list x))] [else #f])) (define+provide/contract (whitespace/nbsp? x) (any/c . -> . coerce/boolean?) (or (whitespace? x) (equal? (->string x) (->string #\u00A0)))) ;; is x a paragraph break? (define+provide/contract (paragraph-break? x #:separator [sep world:paragraph-separator]) ((any/c) (#:separator pregexp?) . ->* . coerce/boolean?) (define paragraph-pattern (pregexp (format "^~a+$" sep))) (and (string? x) (regexp-match paragraph-pattern x))) (define (newline? x) (and (string? x) (equal? world:newline x))) (define (not-newline? x) (not (newline? x))) (define (do-merge xs [acc '()]) (if (empty? xs) acc ;; Try to peel the newlines off the front. (let-values ([(leading-newlines remainder) (splitf-at xs newline?)]) (if (not (empty? leading-newlines)) ; if you got newlines ... ;; combine them into a string and append them to the accumulator, ;; and recurse on the rest (do-merge remainder (append acc (list (apply string-append leading-newlines)))) ;; otherwise peel off elements up to the next newline, append them to accumulator, ;; and recurse on the rest (do-merge (dropf remainder not-newline?) (append acc (takef remainder not-newline?))))))) ;; Find adjacent newline characters in a list and merge them into one item ;; Scribble, by default, makes each newline a separate list item ;; In practice, this is worthless. (define+provide/contract (merge-newlines x) (txexpr-elements? . -> . txexpr-elements?) (cond [(list? x) (do-merge (map merge-newlines x))] [else x])) ;; detect paragraphs ;; todo: unit tests (define+provide/contract (detect-paragraphs elements #:tag [tag 'p] #:separator [sep world:paragraph-separator] #:linebreak-proc [linebreak-proc detect-linebreaks]) ((txexpr-elements?) (#:tag symbol? #:separator string? #:linebreak-proc (txexpr-elements? . -> . txexpr-elements?)) . ->* . txexpr-elements?) ;; prepare elements for paragraph testing (define (prep-paragraph-flow xc) (linebreak-proc (merge-newlines (trim xc whitespace?)))) (define my-paragraph-break? (λ(x) (and (paragraph-break? x #:separator sep) #t))) (define (wrap-paragraph xc) (match xc [(list (? block-txexpr? bx)) bx] ; leave a single block xexpr alone [else (make-txexpr tag empty xc)])) ; otherwise wrap in p tag (let ([elements (prep-paragraph-flow elements)]) (if (ormap my-paragraph-break? elements) ; need this condition to prevent infinite recursion (map wrap-paragraph (splitf-at* elements my-paragraph-break?)) ; split into ¶¶ elements)))