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vl-append
vc-append
vr-append
ht-append
htl-append
hc-append
hbl-append
hb-append
lt-superimpose
ltl-superimpose
lc-superimpose
lbl-superimpose
lb-superimpose
ct-superimpose
ctl-superimpose
cc-superimpose
cbl-superimpose
cb-superimpose
rt-superimpose
rtl-superimpose
rc-superimpose
rbl-superimpose
rb-superimpose
pin-over
pin-under
table

3 Pict Combiners🔗ℹ

procedure

(vl-append [d] pict ...)  pict?

  d : real? = 0.0
  pict : pict-convertible?
(vc-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(vr-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(ht-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(htl-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(hc-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(hbl-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
(hb-append [d] pict ...)  pict?
  d : real? = 0.0
  pict : pict-convertible?
Creates a new pict as a column (for v...-append) or row (for h...-append) of other picts. The optional d argument specifies amount of space to insert between each pair of pictures in making the column or row.

Different procedures align pictures in the orthogonal direction in different ways. For example, vl-append left-aligns all of the pictures.

The descent of the result corresponds to baseline that is lowest in the result among all of the picts’ descent-specified baselines; similarly, the ascent of the result corresponds to the highest ascent-specified baseline. If at least one pict is supplied, then the last element (as reported by pict-last) for the result is (or (pict-last pict) pict) for the using last supplied pict.

Examples:
(define combiners (list vl-append vc-append vr-append
                        ht-append htl-append hc-append
                        hbl-append hb-append))
(define names (list "vl-append" "vc-append" "vr-append"
                    "ht-append" "htl-append" "hc-append"
                    "hbl-append" "hb-append"))
(define pict-a (colorize (filled-rectangle 60 30) "tomato"))
(define pict-b (colorize (disk 45) "cornflower blue"))
(define picts
  (for/list ([combiner combiners] [name names])
    (list (text name null 15)
          (combiner pict-a pict-b))))
> (take picts 4)

'((image image) (image image) (image image) (image image))

> (drop picts 4)

'((image image) (image image) (image image) (image image))

Changed in version 1.11 of package pict-lib: Removed implicit truncation of some centered coordinates to integers.

procedure

(lt-superimpose pict ...)  pict?

  pict : pict-convertible?
(ltl-superimpose pict ...)  pict?
  pict : pict-convertible?
(lc-superimpose pict ...)  pict?
  pict : pict-convertible?
(lbl-superimpose pict ...)  pict?
  pict : pict-convertible?
(lb-superimpose pict ...)  pict?
  pict : pict-convertible?
(ct-superimpose pict ...)  pict?
  pict : pict-convertible?
(ctl-superimpose pict ...)  pict?
  pict : pict-convertible?
(cc-superimpose pict ...)  pict?
  pict : pict-convertible?
(cbl-superimpose pict ...)  pict?
  pict : pict-convertible?
(cb-superimpose pict ...)  pict?
  pict : pict-convertible?
(rt-superimpose pict ...)  pict?
  pict : pict-convertible?
(rtl-superimpose pict ...)  pict?
  pict : pict-convertible?
(rc-superimpose pict ...)  pict?
  pict : pict-convertible?
(rbl-superimpose pict ...)  pict?
  pict : pict-convertible?
(rb-superimpose pict ...)  pict?
  pict : pict-convertible?
Creates a new picture by superimposing a set of pictures. The name prefixes are alignment indicators: horizontal alignment then vertical alignment.

The descent of the result corresponds to baseline that is lowest in the result among all of the picts’ descent-specified baselines; similarly, the ascent of the result corresponds to the highest ascent-specified baseline. The last element (as reported by pict-last) for the result is the lowest, right-most among the last-element picts of the pict arguments, as determined by comparing the last-element bottom-right corners.

Examples:
(define combiners (list lt-superimpose  ltl-superimpose lc-superimpose
                        lbl-superimpose lb-superimpose  ct-superimpose
                        ctl-superimpose cc-superimpose  cbl-superimpose
                        cb-superimpose  rt-superimpose  rtl-superimpose
                        rc-superimpose  rbl-superimpose rb-superimpose))
(define names (list "lt-superimpose"  "ltl-superimpose" "lc-superimpose"
                    "lbl-superimpose" "lb-superimpose"  "ct-superimpose"
                    "ctl-superimpose" "cc-superimpose"  "cbl-superimpose"
                    "cb-superimpose"  "rt-superimpose"  "rtl-superimpose"
                    "rc-superimpose"  "rbl-superimpose" "rb-superimpose"))
(define pict-a (colorize (filled-rectangle 60 30) "tomato"))
(define pict-b (colorize (disk 45) "cornflower blue"))
(define picts
  (for/list ([combiner combiners] [name names])
    (list (text name null 15)
          (combiner pict-a pict-b))))
> (take picts 3)

'((image image) (image image) (image image))

> (take (drop picts 3) 3)

'((image image) (image image) (image image))

> (take (drop picts 6) 3)

'((image image) (image image) (image image))

> (take (drop picts 9) 3)

'((image image) (image image) (image image))

> (take (drop picts 12) 3)

'((image image) (image image) (image image))

Changed in version 1.11 of package pict-lib: Removed implicit truncation of some centered coordinates to integers.

procedure

(pin-over base dx dy pict)  pict?

  base : pict-convertible?
  dx : real?
  dy : real?
  pict : pict-convertible?
(pin-over base find-pict find pict)  pict?
  base : pict-convertible?
  find-pict : pict-path?
  find : (pict-convertible? pict-path? . -> . (values real? real?))
  pict : pict-convertible?
Creates a pict with the same bounding box, ascent, and descent as base, but with pict placed on top. The dx and dy arguments specify how far right and down the second pict’s corner is from the first pict’s corner. Alternately, the find-pict and find arguments find a point in base for find-pict; the find procedure should be something like lt-find.

Examples:
> (pin-over (colorize (filled-rectangle 70 40) "chocolate")
            10 10
            (colorize (filled-rectangle 30 30) "orange"))

image

> (define top (colorize (filled-rectangle 70 40) "royalblue"))
> (pin-over (vc-append top (colorize (filled-rectangle 70 40) "firebrick"))
            top
            cb-find
            (colorize (disk 20) "white"))

image

procedure

(pin-under base dx dy pict)  pict?

  base : pict-convertible?
  dx : real?
  dy : real?
  pict : pict-convertible?
(pin-under base find-pict find pict)  pict?
  base : pict-convertible?
  find-pict : pict-convertible?
  find : (pict-convertible? pict-path? . -> . (values real? real?))
  pict : pict-convertible?
Like pin-over, but pict is drawn before base in the resulting combination.

Examples:
> (define txt
    (colorize (text "P I C T S" null 25) "chocolate"))
> (define rect
    (colorize
     (filled-rectangle (pict-width txt) (* 0.3 (pict-height txt)))
     "lemonchiffon"))
> (pin-under txt
             0
             (- (/ (pict-height txt) 2)
                (/ (pict-height rect) 2))
             rect)

image

procedure

(table ncols    
  picts    
  col-aligns    
  row-aligns    
  col-seps    
  row-seps)  pict?
  ncols : exact-positive-integer?
  picts : (non-empty-listof pict-convertible?)
  col-aligns : 
(or/c (list*of (->* () #:rest (listof pict-convertible?) pict-convertible?))
      (listof (->* () #:rest (listof pict-convertible?) pict-convertible?)))
  row-aligns : 
(or/c (list*of (->* () #:rest (listof pict-convertible?) pict-convertible?))
      (listof (->* () #:rest (listof pict-convertible?) pict-convertible?)))
  col-seps : (or/c (list*of real?) (listof real?))
  row-seps : (or/c (list*of real?) (listof real?))
Creates a table given a list of picts. The picts list is a concatenation of the table’s rows (which means that a Racket list call can be formatted to reflect the shape of the output table).

The col-aligns, row-aligns, col-seps, and row-seps arguments are “lists” specifying the row and columns alignments separation between rows and columns. For c columns and r rows, the first two should have c and r superimpose procedures, and the last two should have c-1 and r-1 numbers, respectively. The lists can be “improper” (i.e., ending in a number instead of an empty list), in which case the non-pair cdr is used as the value for all remaining list items that were expected. The col-aligns and row-aligns procedures are used to superimpose all of the cells in a column or row; this superimposition determines the total width or height of the column or row, and also determines the horizontal or vertical placement of each cell in the column or row.

Examples:
> (table 4
         (map (λ (x) (text (format "~a" x)))
              (list 1 2 3 4
                    5 6 7 8
                    9000 10 11 12))
         cc-superimpose
         cc-superimpose
         10
         10)

image

> (table 4
         (map (λ (x) (text (format "~a" x)))
              (list 1 2 3 4
                    5 6 7 8
                    9000 10 11 12))
         rc-superimpose
         cc-superimpose
         10
         10)

image