313 lines
12 KiB
Scheme
313 lines
12 KiB
Scheme
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(define-library (picrin pretty-print)
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(import (scheme base)
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(scheme write))
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; (reverse-string-append l) = (apply string-append (reverse l))
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(define (reverse-string-append l)
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(define (rev-string-append l i)
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(if (pair? l)
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(let* ((str (car l))
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(len (string-length str))
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(result (rev-string-append (cdr l) (+ i len))))
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(let loop ((j 0) (k (- (- (string-length result) i) len)))
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(if (< j len)
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(begin
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(string-set! result k (string-ref str j))
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(loop (+ j 1) (+ k 1)))
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result)))
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(make-string i)))
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(rev-string-append l 0))
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;; We define a pretty printer for Scheme S-expressions (sexp). While
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;; Petite Scheme supports that by its own, mzscheme does not. If you
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;; get a sexp (like from proof-to-expr) prefix it with a call to spp and
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;; the output is nicely formated to fit into pp-width many columns:
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;;
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;; (spp (proof-to-expr (current-proof)))
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;;
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(define pp-width 80)
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;;"genwrite.scm" generic write used by pretty-print and truncated-print.
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;; Copyright (c) 1991, Marc Feeley
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;; Author: Marc Feeley (feeley@iro.umontreal.ca)
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;; Distribution restrictions: none
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;;
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;; Modified for Minlog by Stefan Schimanski <schimans@math.lmu.de>
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;; Taken from slib 2d6, genwrite.scm and pp.scm
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(define genwrite:newline-str (make-string 1 #\newline))
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(define (generic-write obj display? width output)
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(define (read-macro? l)
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(define (length1? l) (and (pair? l) (null? (cdr l))))
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(let ((head (car l)) (tail (cdr l)))
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(case head
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((quote quasiquote unquote unquote-splicing) (length1? tail))
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(else #f))))
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(define (read-macro-body l)
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(cadr l))
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(define (read-macro-prefix l)
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(let ((head (car l)) (tail (cdr l)))
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(case head
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((quote) "'")
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((quasiquote) "`")
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((unquote) ",")
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((unquote-splicing) ",@"))))
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(define (out str col)
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(and col (output str) (+ col (string-length str))))
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(define (wr obj col)
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(define (wr-lst l col)
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(if (pair? l)
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(let loop ((l (cdr l))
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(col (and col (wr (car l) (out "(" col)))))
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(cond ((not col) col)
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((pair? l)
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(loop (cdr l) (wr (car l) (out " " col))))
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((null? l) (out ")" col))
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(else (out ")" (wr l (out " . " col))))))
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(out "()" col)))
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(define (wr-expr expr col)
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(if (read-macro? expr)
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(wr (read-macro-body expr) (out (read-macro-prefix expr) col))
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(wr-lst expr col)))
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(cond ((pair? obj) (wr-expr obj col))
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((null? obj) (wr-lst obj col))
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((vector? obj) (wr-lst (vector->list obj) (out "#" col)))
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((boolean? obj) (out (if obj "#t" "#f") col))
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((number? obj) (out (number->string obj) col))
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((symbol? obj) (out (symbol->string obj) col))
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((procedure? obj) (out "#[procedure]" col))
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((string? obj) (if display?
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(out obj col)
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(let loop ((i 0) (j 0) (col (out "\"" col)))
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(if (and col (< j (string-length obj)))
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(let ((c (string-ref obj j)))
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(if (or (char=? c #\\)
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(char=? c #\"))
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(loop j
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(+ j 1)
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(out "\\"
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(out (substring obj i j)
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col)))
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(loop i (+ j 1) col)))
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(out "\""
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(out (substring obj i j) col))))))
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((char? obj) (if display?
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(out (make-string 1 obj) col)
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(out (case obj
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((#\space) "space")
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((#\newline) "newline")
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(else (make-string 1 obj)))
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(out "#\\" col))))
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((input-port? obj) (out "#[input-port]" col))
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((output-port? obj) (out "#[output-port]" col))
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((eof-object? obj) (out "#[eof-object]" col))
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(else (out "#[unknown]" col))))
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(define (pp obj col)
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(define (spaces n col)
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(if (> n 0)
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(if (> n 7)
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(spaces (- n 8) (out " " col))
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(out (substring " " 0 n) col))
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col))
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(define (indent to col)
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(and col
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(if (< to col)
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(and (out genwrite:newline-str col) (spaces to 0))
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(spaces (- to col) col))))
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(define pp-list #f)
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(define pp-expr #f)
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(define pp-call #f)
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(define pp-down #f)
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(define pp-general #f)
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(define pp-width #f)
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(define pp-expr-list #f)
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(define indent-general #f)
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(define max-expr-width #f)
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(define max-call-head-width #f)
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(define style #f)
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(define pr
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(lambda (obj col extra pp-pair)
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(if (or (pair? obj) (vector? obj)) ; may have to split on multiple lines
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(let ((result '())
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(left (min (+ (- (- width col) extra) 1) max-expr-width)))
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(generic-write obj display? #f
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(lambda (str)
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(set! result (cons str result))
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(set! left (- left (string-length str)))
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(> left 0)))
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(if (> left 0) ; all can be printed on one line
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(out (reverse-string-append result) col)
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(if (pair? obj)
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(pp-pair obj col extra)
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(pp-list (vector->list obj) (out "#" col) extra pp-expr))))
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(wr obj col))))
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(set! pp-expr
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(lambda (expr col extra)
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(if (read-macro? expr)
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(pr (read-macro-body expr)
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(out (read-macro-prefix expr) col)
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extra
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pp-expr)
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(let ((head (car expr)))
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(if (symbol? head)
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(let ((proc (style head)))
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(if proc
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(proc expr col extra)
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(if (> (string-length (symbol->string head))
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max-call-head-width)
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(pp-general expr col extra #f #f #f pp-expr)
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(pp-call expr col extra pp-expr))))
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(pp-list expr col extra pp-expr))))))
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; (head item1
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; item2
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; item3)
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(set! pp-call
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(lambda (expr col extra pp-item)
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(let ((col* (wr (car expr) (out "(" col))))
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(and col
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(pp-down (cdr expr) col* (+ col* 1) extra pp-item)))))
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; (item1
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; item2
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; item3)
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(set! pp-list
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(lambda (l col extra pp-item)
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(let ((col (out "(" col)))
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(pp-down l col col extra pp-item))))
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(set! pp-down
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(lambda (l col1 col2 extra pp-item)
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(let loop ((l l) (col col1))
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(and col
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(cond ((pair? l)
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(let ((rest (cdr l)))
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(let ((extra (if (null? rest) (+ extra 1) 0)))
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(loop rest
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(pr (car l) (indent col2 col) extra pp-item)))))
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((null? l)
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(out ")" col))
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(else
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(out ")"
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(pr l
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(indent col2 (out "." (indent col2 col)))
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(+ extra 1)
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pp-item))))))))
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(set! pp-general
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(lambda (expr col extra named? pp-1 pp-2 pp-3)
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(define (tail3 rest col1 col2)
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(pp-down rest col2 col1 extra pp-3))
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(define (tail2 rest col1 col2 col3)
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(if (and pp-2 (pair? rest))
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(let* ((val1 (car rest))
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(rest (cdr rest))
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(extra (if (null? rest) (+ extra 1) 0)))
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(tail3 rest col1 (pr val1 (indent col3 col2) extra pp-2)))
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(tail3 rest col1 col2)))
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(define (tail1 rest col1 col2 col3)
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(if (and pp-1 (pair? rest))
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(let* ((val1 (car rest))
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(rest (cdr rest))
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(extra (if (null? rest) (+ extra 1) 0)))
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(tail2 rest col1 (pr val1 (indent col3 col2) extra pp-1) col3))
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(tail2 rest col1 col2 col3)))
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(let* ((head (car expr))
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(rest (cdr expr))
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(col* (wr head (out "(" col))))
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(if (and named? (pair? rest))
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(let* ((name (car rest))
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(rest (cdr rest))
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(col** (wr name (out " " col*))))
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(tail1 rest (+ col indent-general) col** (+ col** 1)))
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(tail1 rest (+ col indent-general) col* (+ col* 1))))))
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(set! pp-expr-list
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(lambda (l col extra)
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(pp-list l col extra pp-expr)))
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(define (pp-LAMBDA expr col extra)
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(pp-general expr col extra #f pp-expr-list #f pp-expr))
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(define (pp-IF expr col extra)
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(pp-general expr col extra #f pp-expr #f pp-expr))
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(define (pp-COND expr col extra)
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(pp-call expr col extra pp-expr-list))
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(define (pp-CASE expr col extra)
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(pp-general expr col extra #f pp-expr #f pp-expr-list))
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(define (pp-AND expr col extra)
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(pp-call expr col extra pp-expr))
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(define (pp-LET expr col extra)
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(let* ((rest (cdr expr))
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(named? (and (pair? rest) (symbol? (car rest)))))
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(pp-general expr col extra named? pp-expr-list #f pp-expr)))
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(define (pp-BEGIN expr col extra)
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(pp-general expr col extra #f #f #f pp-expr))
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(define (pp-DO expr col extra)
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(pp-general expr col extra #f pp-expr-list pp-expr-list pp-expr))
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; define formatting style (change these to suit your style)
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(set! indent-general 2)
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(set! max-call-head-width 5)
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(set! max-expr-width 50)
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(set! style
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(lambda (head)
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(case head
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((lambda let* letrec define) pp-LAMBDA)
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((if set!) pp-IF)
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((cond) pp-COND)
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((case) pp-CASE)
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((and or) pp-AND)
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((let) pp-LET)
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((begin) pp-BEGIN)
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((do) pp-DO)
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(else #f))))
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(pr obj col 0 pp-expr))
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(if width
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(out genwrite:newline-str (pp obj 0))
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(wr obj 0)))
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(define (pretty-print obj . opt)
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(let ((port (if (pair? opt) (car opt) (current-output-port))))
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(generic-write obj #f pp-width
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(lambda (s) (display s port) #t))
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(display "")))
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(export pretty-print))
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