#lang racket/base (require racket/contract racket/list racket/string racket/match) (require (only-in racket/format ~a)) (require (only-in racket/bool nor)) (require (only-in xml xexpr/c)) (module+ test (require rackunit)) (require "tools.rkt") (provide (all-defined-out)) ;; 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/contract (merge-newlines x) (list? . -> . list?) (define (newline? x) (and (string? x) (equal? "\n" x))) (define (not-newline? x) (not (newline? x))) (define (really-merge-newlines 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 (really-merge-newlines remainder (append acc (list (string-join leading-newlines "")))) ;; otherwise peel off elements up to the next newline, append them to accumulator, ;; and recurse on the rest (really-merge-newlines (dropf remainder not-newline?) (append acc (takef remainder not-newline?))))))) (cond [(list? x) (really-merge-newlines (map merge-newlines x))] [else x])) (module+ test (check-equal? (merge-newlines '(p "\n" "foo" "\n" "\n" "bar" (em "\n" "\n" "\n"))) '(p "\n" "foo" "\n\n" "bar" (em "\n\n\n")))) ;; todo: add native support for list-xexpr ;; decode triple newlines to list items ;; convert numbers to strings ;; maybe this isn't necessary (define (stringify x) (map-tree (λ(i) (if (number? i) (->string i) i)) x)) (module+ test (check-equal? (stringify '(p 1 2 "foo" (em 4 "bar"))) '(p "1" "2" "foo" (em "4" "bar")))) ;; decoder wireframe (define/contract (decode nx #:exclude-xexpr-tags [excluded-xexpr-tags '()] #:xexpr-tag-proc [xexpr-tag-proc (λ(x)x)] #:xexpr-attr-proc [xexpr-attr-proc (λ(x)x)] #:xexpr-elements-proc [xexpr-elements-proc (λ(x)x)] #:block-xexpr-proc [block-xexpr-proc (λ(x)x)] #:inline-xexpr-proc [inline-xexpr-proc (λ(x)x)] #:string-proc [string-proc (λ(x)x)]) ;; use xexpr/c for contract because it gives better error messages ((xexpr/c) (#:exclude-xexpr-tags list? #:xexpr-tag-proc procedure? #:xexpr-attr-proc procedure? #:xexpr-elements-proc procedure? #:block-xexpr-proc procedure? #:inline-xexpr-proc procedure? #:string-proc procedure?) . ->* . tagged-xexpr?) (when (not (tagged-xexpr? nx)) (error (format "decode: ~v not a full tagged-xexpr" nx))) (define (&decode x) (cond [(tagged-xexpr? x) (let-values([(tag attr elements) (break-tagged-xexpr x)]) (if (tag . in? . excluded-xexpr-tags) x ; let x pass through untouched (let ([decoded-xexpr (apply make-tagged-xexpr (map &decode (list tag attr elements)))]) ((if (block-xexpr? decoded-xexpr) block-xexpr-proc inline-xexpr-proc) decoded-xexpr))))] [(xexpr-tag? x) (xexpr-tag-proc x)] [(xexpr-attr? x) (xexpr-attr-proc x)] ;; need this for operations that may depend on context in list [(xexpr-elements? x) (map &decode (xexpr-elements-proc x))] [(string? x) (string-proc x)] ;; if something has made it through undecoded, that's a problem [else (error "Can't decode" x)])) (&decode nx))