#lang scheme/gui
(require "gc-core.ss")
(provide heap-viz%)
(define row-size 10)
(define heap-viz<%> (interface () update-view))
(define horizontal-axis-height 0)
(define vertical-axis-width 0)
(define label-line-size 2)
(define cell-horizontal-padding 6)
(define cell-vertical-padding 4)
(define vertical-axis-spacer 2)
(define-struct arrow (from to) #:transparent)
(define show-arrows? #t)
(define show-highlighted-cells? #f)
(define heap-canvas%
(class* canvas% (heap-viz<%>)
(init-field heap-vec)
(define column-widths (make-vector
(cond
[(<= (vector-length heap-vec) 300) 10]
[else 20])
0))
(define row-heights (make-vector (ceiling (/ (vector-length heap-vec)
(vector-length column-widths)))
0))
(define arrows '())
(define highlighted-cells '())
(define/public (update-view)
(setup-min-width/height)
(redraw-offscreen)
(recompute-arrows-and-highlighted-cells)
(on-paint))
(inherit get-dc get-client-size refresh min-width min-height)
(define/private (setup-min-width/height)
(fill-in-min-sizes)
(min-width (ceiling (inexact->exact (+ vertical-axis-width (vector-sum column-widths)))))
(min-height (ceiling (inexact->exact (+ horizontal-axis-height (vector-sum row-heights)))))
(compute-sizes))
(define/private (compute-sizes)
(fill-in-min-sizes)
(let-values ([(w h) (get-client-size)])
(define (distribute-extras sizes avail-size)
(let ([min-size (vector-sum sizes)])
(cond
[(< avail-size min-size)
(void)]
[else
(let ([extra-space (/ (- avail-size min-size)
(vector-length sizes))])
(for ([i (in-range 0 (vector-length sizes))])
(vector-set! sizes
i
(+ (vector-ref sizes i)
extra-space))))])))
(distribute-extras column-widths (- w vertical-axis-width))
(distribute-extras row-heights (- h horizontal-axis-height))))
(define/private (fill-in-min-sizes)
(let ([dc (get-dc)])
(let-values ([(w h d a)
(send dc get-text-extent (format "~a" (vector-length heap-vec)))])
(set! vertical-axis-width (+ w label-line-size vertical-axis-spacer)))
(let-values ([(w h d a) (send dc get-text-extent "1")])
(set! horizontal-axis-height (+ h label-line-size))))
(for ([i (in-range 0 (vector-length heap-vec))])
(let ([column (remainder i (vector-length column-widths))]
[row (quotient i (vector-length column-widths))])
(let-values ([(cw ch) (cell-min-size (vector-ref heap-vec i))])
(vector-set! row-heights
row
(max (+ ch cell-vertical-padding)
(vector-ref row-heights row)))
(vector-set! column-widths
column
(max (+ cw cell-horizontal-padding)
(vector-ref column-widths column)))))))
(define/private (cell-min-size obj)
(let ([dc (get-dc)])
(let-values ([(w h d a) (send dc get-text-extent (val->string obj))])
(values w h))))
(define/private (val->string obj)
(cond
[(boolean? obj) (if obj "#t" "#f")]
[(number? obj) (format "~a" obj)]
[(procedure? obj)
(if (object-name obj)
(format "~a" (object-name obj))
"#<proc>")]
[(symbol? obj) (format "'~s" obj)]
[(null? obj) "empty"]
[else (error 'val->string "unknown object, expected a heap-value.")]))
(define/override (on-paint)
(unless offscreen (redraw-offscreen))
(let ([dc (get-dc)])
(send dc set-origin 0 0)
(send dc draw-bitmap offscreen 0 0)
(send dc set-origin vertical-axis-width horizontal-axis-height)
(for-each (λ (i) (draw-cell dc i #t))
highlighted-cells)
(for-each (λ (arrow) (draw-arrow dc arrow))
arrows)))
(define offscreen #f)
(define/private (redraw-offscreen)
(let-values ([(w h) (get-client-size)])
(when (or (not offscreen)
(not (equal? w (send offscreen get-width)))
(not (equal? h (send offscreen get-height))))
(set! offscreen (make-object bitmap% w h)))
(let ([dc (make-object bitmap-dc% offscreen)])
(send dc set-smoothing 'aligned)
(send dc clear)
(send dc set-origin 0 0)
(let-values ([(w h) (get-client-size)])
(send dc set-pen "navy" label-line-size 'solid)
(send dc draw-line
(- vertical-axis-width (/ label-line-size 2)) 0
(- vertical-axis-width (/ label-line-size 2)) h)
(send dc draw-line
0 (- horizontal-axis-height (/ label-line-size 2))
w (- horizontal-axis-height (/ label-line-size 2))))
(send dc set-origin vertical-axis-width horizontal-axis-height)
(let ([y (- 0 horizontal-axis-height label-line-size)])
(for/fold ([x 0])
([i (in-range 0 (vector-length column-widths))])
(let ([str (format "~a" i)])
(let-values ([(w h d a) (send dc get-text-extent str)])
(setup-colors dc (+ i 1) 0 #f)
(send dc draw-rectangle x y
(vector-ref column-widths i)
horizontal-axis-height)
(send dc draw-text str
(+ x (- (/ (vector-ref column-widths i) 2)
(/ w 2)))
y)
(+ x (vector-ref column-widths i))))))
(for/fold ([y 0])
([i (in-range 0 (vector-length row-heights))])
(let ([str (format "~a" (* i (vector-length column-widths)))])
(let-values ([(w h d a) (send dc get-text-extent str)])
(let ([x (- 0 label-line-size w vertical-axis-spacer)])
(setup-colors dc 0 (+ i 1) #f)
(send dc draw-rectangle
(- vertical-axis-width)
y
(- vertical-axis-width label-line-size)
(vector-ref row-heights i))
(send dc draw-text str
x
(+ y (- (/ (vector-ref row-heights i) 2)
(/ h 2))))
(+ y (vector-ref row-heights i))))))
(for ([i (in-range 0 (round-up-to-even-multiple
(vector-length heap-vec)
(vector-length column-widths)))])
(draw-cell dc i #f))
(send dc set-bitmap #f))))
(define/private (draw-cell dc i highlighted?)
(let-values ([(cell-x cell-y cell-w cell-h) (cell->ltwh i)])
(let* ([column (remainder i (vector-length column-widths))]
[row (quotient i (vector-length column-widths))])
(setup-colors dc (+ column 1) (+ row 1) highlighted?)
(send dc draw-rectangle cell-x cell-y cell-w cell-h)
(when (< i (vector-length heap-vec))
(let-values ([(ow oh) (cell-min-size (vector-ref heap-vec i))])
(send dc draw-text
(val->string (vector-ref heap-vec i))
(+ cell-x (- (/ cell-w 2) (/ ow 2)))
(+ cell-y (- (/ cell-h 2) (/ oh 2)))))))))
(define/private (draw-arrow dc arrow)
(let-values ([(fcell-x fcell-y fcell-w fcell-h) (cell->ltwh (arrow-from arrow))]
[(tcell-x tcell-y tcell-w tcell-h) (cell->ltwh (arrow-to arrow))])
(let ([alpha (send dc get-alpha)])
(send dc set-alpha 2/3)
(send dc set-brush highlighted-color 'solid)
(send dc set-pen "black" 1 'transparent)
(send dc draw-ellipse
(+ fcell-x (/ fcell-w 2) -4)
(+ fcell-y (/ fcell-h 2) -4)
8 8)
(let-values ([(x y)
(fill-in-arrow (+ fcell-x (/ fcell-w 2))
(+ fcell-y (/ fcell-h 2))
(+ tcell-x (/ tcell-w 2))
(+ tcell-y (/ tcell-h 2)))])
(send dc draw-polygon arrow-points)
(send dc set-pen highlighted-color 2 'solid)
(send dc draw-line
(+ fcell-x (/ fcell-w 2))
(+ fcell-y (/ fcell-h 2))
x y))
(send dc set-alpha alpha))))
(define arrow-point1 (make-object point%))
(define arrow-point2 (make-object point%))
(define arrow-point3 (make-object point%))
(define arrow-points (list arrow-point1 arrow-point2 arrow-point3))
(define triangle-left (make-polar 1 (* pi 1/12)))
(define triangle-right (make-polar 1 (* pi -1/12)))
(define/private (fill-in-arrow sx sy ex ey)
(let* ([dir (make-polar 16
(angle (- (make-rectangular sx (- sy))
(make-rectangular ex (- ey)))))]
[left-corner (* dir triangle-left)]
[right-corner (* dir triangle-right)]
[line-end-point (/ (+ left-corner right-corner) 2)])
(send arrow-point1 set-x ex)
(send arrow-point1 set-y ey)
(send arrow-point2 set-x (+ ex (real-part left-corner)))
(send arrow-point2 set-y (+ ey (- (imag-part left-corner))))
(send arrow-point3 set-x (+ ex (real-part right-corner)))
(send arrow-point3 set-y (+ ey (- (imag-part right-corner))))
(values (/ (+ (send arrow-point2 get-x) (send arrow-point3 get-x)) 2)
(/ (+ (send arrow-point2 get-y) (send arrow-point3 get-y)) 2))))
(define (cell->ltwh i)
(let* ([column (remainder i (vector-length column-widths))]
[row (quotient i (vector-length column-widths))]
[cell-x (vector-sum column-widths column)]
[cell-y (vector-sum row-heights row)])
(values cell-x cell-y
(vector-ref column-widths column)
(vector-ref row-heights row))))
(define/override (on-size w h)
(compute-sizes)
(redraw-offscreen)
(refresh))
(define/private (mouse-xy->ij mx my)
(define (find-index start vec m-coord)
(let loop ([coord start]
[i 0])
(cond
[(< i (vector-length vec))
(cond
[(<= coord m-coord (+ coord (vector-ref vec i)))
i]
[else
(loop (+ coord (vector-ref vec i))
(+ i 1))])]
[else #f])))
(values (find-index vertical-axis-width column-widths mx)
(find-index horizontal-axis-height row-heights my)))
(define/override (on-event evt)
(cond
[(or (send evt moving?)
(send evt entering?))
(set! mouse-x (send evt get-x))
(set! mouse-y (send evt get-y))]
[else
(set! mouse-x #f)
(set! mouse-y #f)])
(recompute-arrows-and-highlighted-cells))
(define mouse-x #f)
(define mouse-y #f)
(define/private (recompute-arrows-and-highlighted-cells)
(cond
[(and mouse-x mouse-y)
(let-values ([(i j) (mouse-xy->ij mouse-x mouse-y)])
(if (and i j)
(let ([index (+ (* j (vector-length column-widths)) i)])
(update-arrows (find-connections index))
(update-highlighted-cells
(cond
[(< index (vector-length heap-vec))
(cons index (index->nexts index))]
[else '()])))
(update-highlighted-cells '())))]
[else
(update-highlighted-cells '())
(update-arrows '())]))
(define/private (index->nexts index)
(let ([n (vector-ref heap-vec index)])
(cond
[(and (exact-integer? n)
(<= 0 n)
(< n (vector-length heap-vec)))
(list n)]
[(procedure? n)
(map read-root (procedure-roots n))]
[else
'()])))
(define/private (find-connections start)
(let ([visited (make-hash)]
[ans '()])
(let loop ([i start])
(unless (hash-ref visited i #f)
(hash-set! visited i #t)
(for-each
(λ (next)
(set! ans (cons (make-arrow i next) ans))
(loop next))
(index->nexts i))))
ans))
(define/private (update-arrows new)
(when show-arrows?
(unless (equal? new arrows)
(set! arrows new)
(refresh))))
(define/private (update-highlighted-cells new)
(when show-highlighted-cells?
(unless (equal? new highlighted-cells)
(set! highlighted-cells new)
(refresh))))
(super-new)
(setup-min-width/height)
(send (get-dc) set-smoothing 'aligned)))
(define (round-up-to-even-multiple n cols)
(let ([%% (remainder n cols)])
(cond
[(zero? %%) n]
[else (+ n (- cols %%))])))
(define highlighted-color "forestgreen")
(define (setup-colors dc i j highlighted-cell?)
(send dc set-pen "black" 1 'transparent)
(cond
[highlighted-cell?
(send dc set-brush highlighted-color 'solid)
(send dc set-text-foreground (send the-color-database find-color "white"))]
[else
(send dc set-brush (ij->background-color i j) 'solid)
(send dc set-text-foreground (send the-color-database find-color (ij->text-color i j)))]))
(define (ij->background-color i j)
(cond
[(zero? i)
(if (zero? (modulo j 5))
"black"
"white")]
[(zero? j)
(if (zero? (modulo i 2))
"gray"
"white")]
[(zero? (modulo j 5))
"black"]
[(zero? (modulo i 2))
"gray"]
[else
"white"]))
(define (ij->text-color i j)
(let ([bkg (ij->background-color i j)])
(cond
[(equal? bkg "black")
"white"]
[else
"black"])))
(define (vector-sum v [cap (vector-length v)])
(for/fold ((sum 0))
((i (in-range cap)))
(+ sum (vector-ref v i))))
(define heap-viz%
(class* object% (heap-viz<%>)
(init heap-vec)
(define eventspace (make-eventspace))
(define frame
(parameterize ([current-eventspace eventspace])
(new frame% [label "Heap"])))
(define canvas (new heap-canvas% [parent frame] [heap-vec heap-vec] [style '(no-autoclear)]))
(new grow-box-spacer-pane% [parent frame])
(send frame show #t)
(define queued-sema (make-semaphore 1))
(define queued #f)
(define/public (update-view #:location loc)
(semaphore-wait queued-sema)
(cond
[queued
(semaphore-post queued-sema)]
[else
(set! queued #t)
(semaphore-post queued-sema)
(parameterize ([current-eventspace eventspace])
(queue-callback
(λ ()
(semaphore-wait queued-sema)
(set! queued #f)
(semaphore-post queued-sema)
(send canvas update-view))
#f))]))
(super-new)))
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