;; show.scm -- additional combinator formatters ;; Copyright (c) 2013 Alex Shinn. All rights reserved. ;; BSD-style license: http://synthcode.com/license.txt ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Spacing ;;> Output a single newline. (define nl (displayed "\n")) ;;> "Fresh line" - output a newline iff we're not at the start of a ;;> fresh line. (define fl (fn (col) (if (zero? col) nothing nl))) ;;> Move to a given tab-stop (using spaces, not tabs). (define (tab-to . o) (fn (col pad-char) (let* ((tab-width (if (pair? o) (car o) 8)) (rem (modulo col tab-width))) (if (positive? rem) (displayed (make-string (- tab-width rem) pad-char)) nothing)))) ;;> Move to an explicit column. (define (space-to where) (fn (col pad-char) (displayed (make-string (max 0 (- where col)) pad-char)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; String transformations (define (with-string-transformer proc . ls) (fn (output) (let ((output* (lambda (str) (fn () (output (proc str)))))) (with ((output output*)) (each-in-list ls))))) (define (upcased . ls) (apply with-string-transformer string-upcase ls)) (define (downcased . ls) (apply with-string-transformer string-downcase ls)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Padding and trimming (define (padded/both width . ls) (call-with-output (each-in-list ls) (lambda (str) (fn (string-width pad-char) (let ((diff (- width (string-width str)))) (if (positive? diff) (let* ((diff/2 (quotient diff 2)) (left (make-string diff/2 pad-char)) (right (if (even? diff) left (make-string (+ 1 diff/2) pad-char)))) (each right str left)) (displayed str))))))) (define (padded width . ls) (fn ((col1 col)) (each (each-in-list ls) (fn ((col2 col) pad-char) (displayed (make-string (max 0 (- width (- col2 col1))) pad-char)))))) (define padded/right padded) (define (padded/left width . ls) (call-with-output (each-in-list ls) (lambda (str) (fn (string-width pad-char) (let ((diff (- width (string-width str)))) (each (make-string diff pad-char) str)))))) ;; General buffered trim - capture the output apply a trimmer. (define (trimmed/buffered width producer proc) (call-with-output producer (lambda (str) (fn (string-width) (let* ((str-width (string-width str)) (diff (- str-width width))) (displayed (if (positive? diff) (proc str str-width diff) str))))))) (define (trimmed width . ls) (trimmed/buffered width (each-in-list ls) (lambda (str str-width diff) (fn (ellipsis string-width col) (let* ((ell (if (char? ellipsis) (string ellipsis) (or ellipsis ""))) (ell-len (string-width ell)) (diff (- (+ str-width ell-len) width))) (each (if (negative? diff) nothing (substring str 0 (- width ell-len))) ell)))))) (define trimmed/right trimmed) (define (trimmed/left width . ls) (trimmed/buffered width (each-in-list ls) (lambda (str str-width diff) (fn (ellipsis string-width) (let* ((ell (if (char? ellipsis) (string ellipsis) (or ellipsis ""))) (ell-len (string-width ell)) (diff (- (+ str-width ell-len) width))) (each ell (if (negative? diff) nothing (substring str diff)))))))) (define (trimmed/both width . ls) (trimmed/buffered width (each-in-list ls) (lambda (str str-width diff) (fn (ellipsis string-width) (let* ((ell (if (char? ellipsis) (string ellipsis) (or ellipsis ""))) (ell-len (string-width ell)) (diff (- (+ str-width ell-len ell-len) width)) (left (quotient diff 2)) (right (- (string-width str) (quotient (+ diff 1) 2)))) (if (negative? diff) ell (each ell (substring str left right) ell))))))) (define (trimmed/lazy width . ls) (fn (orig-output string-width) (call-with-current-continuation (lambda (return) (let ((chars-written 0) (output (or orig-output output-default))) (define (output* str) (let ((len (string-width str))) (set! chars-written (+ chars-written len)) (if (> chars-written width) (let* ((end (max 0 (- len (- chars-written width)))) (s (substring str 0 end))) (each (output s) (update! (output orig-output)) (fn () (return nothing)))) (output str)))) (with ((output output*)) (each-in-list ls))))))) (define (fitted width . ls) (padded width (trimmed width (each-in-list ls)))) (define fitted/right fitted) (define (fitted/left width . ls) (padded/left width (trimmed/left width (each-in-list ls)))) (define (fitted/both width . ls) (padded/both width (trimmed/both width (each-in-list ls)))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Joining and interspersing (define (joined/general elt-f last-f dot-f init-ls sep) (fn () (let lp ((ls init-ls)) (cond ((pair? ls) (each (if (eq? ls init-ls) nothing sep) ((if (and last-f (null? (cdr ls))) last-f elt-f) (car ls)) (lp (cdr ls)))) ((and dot-f (not (null? ls))) (each (if (eq? ls init-ls) nothing sep) (dot-f ls))) (else nothing))))) (define (joined elt-f ls . o) (joined/general elt-f #f #f ls (if (pair? o) (car o) ""))) (define (joined/prefix elt-f ls . o) (if (null? ls) nothing (let ((sep (if (pair? o) (car o) ""))) (each sep (joined elt-f ls sep))))) (define (joined/suffix elt-f ls . o) (if (null? ls) nothing (let ((sep (if (pair? o) (car o) ""))) (each (joined elt-f ls sep) sep)))) (define (joined/last elt-f last-f ls . o) (joined/general elt-f last-f #f ls (if (pair? o) (car o) ""))) (define (joined/dot elt-f dot-f ls . o) (joined/general elt-f #f dot-f ls (if (pair? o) (car o) "")))