main
Matthew Butterick 7 years ago
parent 3967393fd3
commit b81da18ec0

@ -27,13 +27,16 @@
[(nw) '(0 0 )] [(n) '(0.5 0 )] [(ne) '(1 0 )]
[( w) '(0 0.5)] [(c) '(0.5 0.5)] [( e) '(1 0.5)]
[(sw) '(0 1 )] [(s) '(0.5 1 )] [(se) '(1 1 )]))
(pt (coerce-int (* (pt-x #R(size q)) x-fac)) (coerce-int (* (pt-y (size q)) y-fac))))
(pt (coerce-int (* (pt-x (size q)) x-fac)) (coerce-int (* (pt-y (size q)) y-fac))))
(define/contract (inner-point q)
(quad? . -> . point?)
(pt+ (origin q) (anchor->point q (inner q)) (offset q)))
(define/contract (start-point q)
(quad? . -> . point?)
(anchor->point q (start q)))
(define/contract (end-point q)
(quad? . -> . point?)
@ -42,11 +45,11 @@
(define/contract (position q [previous-end-pt (pt 0 0)])
((quad?) (point?) . ->* . quad?)
(set-origin! q (pt- previous-end-pt (anchor->point q (start q))))
(set-origin! q (pt- previous-end-pt (start-point q)))
(for/fold ([pt (inner-point q)])
([q (in-list (elems q))]
#:when (quad? q))
(end-point #R(position q pt)))
(end-point (position q pt)))
q)

@ -10,7 +10,7 @@
#:optional-break-proc [optional-break? (const #f)]
#:finish-segment-proc [finish-segment-proc values]
#:size-proc [size-proc (const 1)])
((any/c) (real? any/c
((any/c) (integer? any/c
#:break-val any/c
#:mandatory-break-proc procedure?
#:optional-break-proc procedure?

@ -0,0 +1,108 @@
#lang debug racket/base
(require racket/contract racket/list racket/match txexpr sugar/debug sugar/define sugar/list racket/promise racket/function (only-in racket/control call/prompt)
"param.rkt" "qexpr.rkt" "atomize.rkt" "quad.rkt" "generic.rkt" "position.rkt")
(define/contract (distance q [signal #f])
((quad?) (any/c) . ->* . real?)
(match-define (list x0 y0) (start-point q))
(match-define (list x1 y1) (end-point q))
;; pythagorically
(sqrt (+ (expt (- x1 x0) 2) (expt (- y1 y0) 2))))
(define+provide/contract (wrap xs
[target-size (current-line-width)]
[debug #f]
#:break-val [break-val 'break]
#:mandatory-break-proc [mandatory-break? (const #f)]
#:optional-break-proc [optional-break? (const #f)]
#:finish-segment-proc [finish-segment-proc values])
((any/c) (real? any/c
#:break-val any/c
#:mandatory-break-proc procedure?
#:optional-break-proc procedure?
#:finish-segment-proc procedure?) . ->* . (listof any/c))
(define start-signal (gensym))
(define (finish-segment pieces) (finish-segment-proc (reverse (dropf pieces optional-break?))))
(define last-optional-break-k #f)
(call/prompt ;; continuation boundary for last-optional-break-k
(thunk
(define (capture-optional-break-k!) (let/cc k (set! last-optional-break-k k) #f))
(for/fold ([segments null]
[pieces null]
[size-so-far start-signal]
#:result (append* (reverse (cons (finish-segment pieces) segments))))
([x (in-list xs)])
(define at-start? (eq? size-so-far start-signal))
(define underflow? (and (not at-start?) (<= (+ size-so-far (size x 'end)) target-size)))
(define (add-to-segment) (values segments (cons x pieces) (if at-start?
(size x 'start)
(+ size-so-far (size x)))))
(define (insert-break)
;; when break is found, q is omitted from accumulation
;; and any preceding optional breaks are dropped (that would be trailing before the break)
(values (list* (list break-val) (finish-segment pieces) segments) null start-signal))
(cond
[(mandatory-break? x) (when debug (report x 'got-mandatory-break))
(insert-break)]
[(optional-break? x)
(cond
[at-start? (when debug (report x 'skipping-opt-break-at-beginning)) (values segments null size-so-far)]
[(and underflow? (capture-optional-break-k!)) (when debug (report x 'resuming-breakpoint))
(set! last-optional-break-k #f) ;; prevents continuation loop
(insert-break)]
[else (when debug (report x 'add-optional-break))
(add-to-segment)])]
[(or at-start? underflow?) (when debug (report x 'add-ordinary-char))
(add-to-segment)]
[last-optional-break-k (when debug (report x 'invoking-last-breakpoint))
(last-optional-break-k #t)]
[else (when debug (report x 'falling-back))
(match-define-values (vals _ _) (insert-break))
(values vals (list x) (size x 'start))]))))) ;; fallback if no last-breakpoint-k exists
(define x (q (hasheq) #\x))
(define zwx (q (hasheq 'size (delay (values 0 0 0))) #\z))
(define a (q (hasheq 'size (delay (values 1 1 1))) #\a))
(define b (q (hasheq 'size (delay (values 1 1 1))) #\b))
(define c (q (hasheq 'size (delay (values 1 1 1))) #\c))
(define d (q (hasheq 'size (delay (values 1 1 1))) #\d))
(define sp (q (hasheq 'size (delay (values 0 1 0))) #\space))
(define br (q (hasheq 'size (delay (values 0 0 0))) #\newline))
(define optional-break? (λ (q) (and (quad? q) (memv (car (elems q)) '(#\space)))))
(define (linewrap xs size [debug #f])
(wrap xs size debug
#:break-val 'lb
#:mandatory-break-proc (λ (q) (and (quad? q) (memv (car (elems q)) '(#\newline))))
#:optional-break-proc optional-break?
#|
#:size-proc (λ (q) (let ([val (hash-ref (attrs q) 'size (λ ()
(if (memv (car (elems q)) '(#\space))
(delay (values 0 1 0))
(delay (values 1 1 1)))))])
(if (promise? val) (force val) (val))))
|#
))
(module+ test
(require rackunit)
(test-case
"chars"
(check-equal? (linewrap (list) 1) null)
(check-equal? (linewrap (list x) 1) (list x))
#|
(check-equal? (linewrap (list x x) 1) (list x 'lb x))
(check-equal? (linewrap (list x x x) 1) (list x 'lb x 'lb x))
(check-equal? (linewrap (list x x x) 2) (list x x 'lb x))
(check-equal? (linewrap (list x x x x) 2) (list x x 'lb x x))
(check-equal? (linewrap (list x x x x x) 3) (list x x x 'lb x x))
(check-equal? (linewrap (list x x x x x) 1) (list x 'lb x 'lb x 'lb x 'lb x))
(check-equal? (linewrap (list x x x x x) 10) (list x x x x x))
|#
))
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