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;;; "t3.init" Initialization file for SLIB for T3.1.	-*-scheme-*-
;;; Authors: David Carlton, Stephen Bevan, F. Javier Thayer, and Aubrey Jaffer.
;;;
;;; This code is in the public domain.

;;; File has T syntax, and should be compiled in standard-env.
;;; Compiled file has .so suffix.
;;; File (or compiled version) should be loaded into scheme-env.

;;; This is provided with ABSOLUTELY NO GUARANTEE.
(herald t3)

(define (software-type) 'unix)

(define (scheme-implementation-type) 'T)

(define (scheme-implementation-version)
  (string-append (number->string (quotient *T-VERSION-NUMBER* 1000))
		 "."
		 (number->string (modulo *T-VERSION-NUMBER* 1000))))

;;; (scheme-implementation-home-page) should return a (string) URI
;;; (Uniform Resource Identifier) for this scheme implementation's home
;;; page; or false if there isn't one.
(define (scheme-implementation-home-page)
  "ftp://ftp.cs.indiana.edu:21/pub/scheme-repository/imp/t/README")

;;; (implementation-vicinity) should be defined to be the pathname of
;;; the directory where any auxillary files to your Scheme
;;; implementation reside. It is settable.
(define implementation-vicinity
  (make-simple-switch 'implementation-vicinity
		      (lambda (x) (or (string? x) (false? x)))
		      '#f))
(set (implementation-vicinity) "/usr/local/lib/tsystem/")

;;; (library-vicinity) should be defined to be the pathname of the
;;; directory where files of Scheme library functions reside. It is settable.
(define library-vicinity
  (make-simple-switch 'library-vicinity
		      (lambda (x) (or (string? x) (false? x)))
		      '#f))
(set (library-vicinity) "/usr/local/lib/slib/")
;;Obviously put your value here.

;;; (home-vicinity) should return the vicinity of the user's HOME
;;; directory, the directory which typically contains files which
;;; customize a computer environment for a user.
(define (home-vicinity) #f)

(define in-vicinity string-append)
;@
(define (user-vicinity)
  (case (software-type)
    ((vms)	"[.]")
    (else	"")))

(define *load-pathname* #f)
;@
(define vicinity:suffix?
  (let ((suffi
	 (case (software-type)
	   ((amiga)				'(#\: #\/))
	   ((macos thinkc)			'(#\:))
	   ((ms-dos windows atarist os/2)	'(#\\ #\/))
	   ((nosve)				'(#\: #\.))
	   ((unix coherent plan9)		'(#\/))
	   ((vms)				'(#\: #\]))
	   (else
	    (slib:warn "require.scm" 'unknown 'software-type (software-type))
	    "/"))))
    (lambda (chr) (and (memv chr suffi) #t))))
;;; What is this early definition doing??
(define program-vicinity
  (make-simple-switch 'program-vicinity
		      (lambda (x) (or (string? x) (false? x)))
		      '#f))
;@
(define (pathname->vicinity pathname)
  (let loop ((i (- (string-length pathname) 1)))
    (cond ((negative? i) "")
	  ((vicinity:suffix? (string-ref pathname i))
	   (substring pathname 0 (+ i 1)))
	  (else (loop (- i 1))))))
(define (program-vicinity)
  (if *load-pathname*
      (pathname->vicinity *load-pathname*)
      (slib:error 'program-vicinity " called; use slib:load to load")))
;@
(define sub-vicinity
  (case (software-type)
    ((vms) (lambda
	       (vic name)
	     (let ((l (string-length vic)))
	       (if (or (zero? (string-length vic))
		       (not (char=? #\] (string-ref vic (- l 1)))))
		   (string-append vic "[" name "]")
		   (string-append (substring vic 0 (- l 1))
				  "." name "]")))))
    (else (let ((*vicinity-suffix*
		 (case (software-type)
		   ((nosve) ".")
		   ((macos thinkc) ":")
		   ((ms-dos windows atarist os/2) "\\")
		   ((unix coherent plan9 amiga) "/"))))
	    (lambda (vic name)
	      (string-append vic name *vicinity-suffix*))))))
;@
(define (make-vicinity <pathname>) <pathname>)
;@
(define with-load-pathname
  (let ((exchange
	 (lambda (new)
	   (let ((old *load-pathname*))
	     (set! *load-pathname* new)
	     old))))
    (lambda (path thunk)
      (let* ((old (exchange path))
	     (val (thunk)))
	(exchange old)
	val))))

;;@ SLIB:FEATURES is a list of symbols naming the (SLIB) features
;;; initially supported by this implementation.
(define slib:features
      '(
	source				;can load scheme source files
					;(SLIB:LOAD-SOURCE "filename")
	compiled			;can load compiled files
					;(SLIB:LOAD-COMPILED "filename")
	vicinity
	srfi-59

		       ;; Scheme report features
   ;; R5RS-compliant implementations should provide all 9 features.

;;;	r5rs				;conforms to
;;;	eval				;R5RS two-argument eval
;;;	values				;R5RS multiple values
;;;	dynamic-wind			;R5RS dynamic-wind
;;;	macro				;R5RS high level macros
	delay				;has DELAY and FORCE
	multiarg-apply			;APPLY can take more than 2 args.
	char-ready?
	rev4-optional-procedures	;LIST-TAIL, STRING-COPY,
					;STRING-FILL!, and VECTOR-FILL!

      ;; These four features are optional in both R4RS and R5RS

	multiarg/and-			;/ and - can take more than 2 args.
	rationalize
	transcript			;TRANSCRIPT-ON and TRANSCRIPT-OFF
	with-file			;has WITH-INPUT-FROM-FILE and
					;WITH-OUTPUT-TO-FILE

;;;	r4rs				;conforms to

;;;	ieee-p1178			;conforms to

	r3rs				;conforms to

	rev2-procedures			;SUBSTRING-MOVE-LEFT!,
					;SUBSTRING-MOVE-RIGHT!,
					;SUBSTRING-FILL!,
					;STRING-NULL?, APPEND!, 1+,
					;-1+, <?, <=?, =?, >?, >=?
	object-hash			;has OBJECT-HASH

	full-continuation		;can return multiple times
;;;	ieee-floating-point		;conforms to IEEE Standard 754-1985
					;IEEE Standard for Binary
					;Floating-Point Arithmetic.

			;; Other common features

;;;	srfi				;srfi-0, COND-EXPAND finds all srfi-*
;;;	sicp				;runs code from Structure and
					;Interpretation of Computer
					;Programs by Abelson and Sussman.
;;;	defmacro			;has Common Lisp DEFMACRO
;;;	record				;has user defined data structures
;;;	string-port			;has CALL-WITH-INPUT-STRING and
					;CALL-WITH-OUTPUT-STRING
;;;	sort
	pretty-print
;;;	object->string
	format				;Common-lisp output formatting
	trace				;has macros: TRACE and UNTRACE
;;;	compiler			;has (COMPILER)
;;;	ed				;(ED) is editor
;;;	system				;posix (system <string>)
;;;	getenv				;posix (getenv <string>)
	program-arguments		;returns list of strings (argv)
;;;	current-time			;returns time in seconds since 1/1/1970

		  ;; Implementation Specific features

	i/o-redirection
	))

(define substring
  (let ((primitive-substring (*value standard-env 'substring)))
    (lambda (string start end)
      (primitive-substring string start (max 0 (- end 1))))))

; Modify substring as T's substring takes (start,count) instead of
; (start,end)
(set (syntax-table-entry (env-syntax-table scheme-env) 'require) '#f)

; Turn off the macro REQUIRE so that it can be rebound as a function
; later.

; extend <, >, <= and >= so that they take more than two arguments.
(define <
  (let ((primitive< (*value standard-env '<)))
    (labels ((v (lambda (a b . rest)
		  (if (null? rest)
		      (primitive< a b)
		      (and (primitive< a b)
			   (apply v b (car rest) (cdr rest)))))))
	    v)))

(define >
  (let ((primitive> (*value standard-env '>)))
    (labels ((v (lambda (a b . rest)
		  (if (null? rest)
		      (primitive> a b)
		      (and (primitive> a b)
			   (apply v b (car rest) (cdr rest)))))))
	    v)))

(define <=
  (let ((primitive<= (*value standard-env '<=)))
    (labels ((v (lambda (a b . rest)
		  (if (null? rest)
		      (primitive<= a b)
		      (and (primitive<= a b)
			   (apply v b (car rest) (cdr rest)))))))
	    v)))

(define >=
  (let ((primitive>= (*value standard-env '>=)))
    (labels ((v (lambda (a b . rest)
		  (if (null? rest)
		      (primitive>= a b)
		      (and (primitive>= a b)
			   (apply v b (car rest) (cdr rest)))))))
	    v)))

(define =
  (let ((primitive= (*value standard-env '=)))
    (labels ((v (lambda (a b . rest)
		  (if (null? rest)
		      (primitive= a b)
		      (and (primitive= a b)
			   (apply v b (car rest) (cdr rest)))))))
	    v)))

(define gcd
  (let ((prim (*value standard-env 'gcd)))
    (labels ((v (lambda x
		  (cond ((null? x) 0)
			((= (length x) 1) (car x))
			('#t (prim (car x) (apply v (cdr x))))))))
	    v)))

(define list? (*value standard-env 'proper-list?))

(define program-arguments command-line)

;;; (OUTPUT-PORT-WIDTH <port>)
(define output-port-width
  (lambda x
    (if (null? x) (line-length (standard-input))
	(line-length (car x)))))

;;; (OUTPUT-PORT-HEIGHT <port>)
(define (output-port-height . arg) 24)

;;; (CURRENT-ERROR-PORT)
(define current-error-port
  (let ((port (current-output-port)))
    (lambda () port)))

;;; (TMPNAM) makes a temporary file name.
(define tmpnam
  (let ((cntr 100))
    (lambda () (set! cntr (+ 1 cntr))
	    (let ((tmp (string-append "slib_" (number->string cntr))))
	      (if (file-exists? tmp) (tmpnam) tmp)))))

(define delete-file file-delete)

;;; "rationalize" adjunct procedures.
(define (find-ratio x e)
  (let ((rat (rationalize x e)))
    (list (numerator rat) (denominator rat))))
(define (find-ratio-between x y)
  (find-ratio (/ (+ x y) 2) (/ (- x y) 2)))

;;; CHAR-CODE-LIMIT is one greater than the largest integer which can
;;; be returned by CHAR->INTEGER.
(define char-code-limit 256)

;;; MOST-POSITIVE-FIXNUM is used in modular.scm
;;; T already has it.

;;; Return argument
(define (identity x) x)

;;; SLIB:EVAL is single argument eval using the top-level (user) environment.
(define (slib:eval form) (eval form scheme-env))

;;; If your implementation provides R4RS macros:
;(define macro:eval slib:eval)
;(define macro:load load)

(define *defmacros*
  (list (cons 'defmacro
	      (lambda (name parms . body)
		`(set! *defmacros* (cons (cons ',name (lambda ,parms ,@body))
				      *defmacros*))))))
(define (defmacro? m) (and (assq m *defmacros*) #t))

(define (macroexpand-1 e)
  (if (pair? e) (let ((a (car e)))
		  (cond ((symbol? a) (set! a (assq a *defmacros*))
				     (if a (apply (cdr a) (cdr e)) e))
			(else e)))
      e))

(define (macroexpand e)
  (if (pair? e) (let ((a (car e)))
		  (cond ((symbol? a)
			 (set! a (assq a *defmacros*))
			 (if a (macroexpand (apply (cdr a) (cdr e))) e))
			(else e)))
      e))

(define gentemp
  (let ((*gensym-counter* -1))
    (lambda ()
      (set! *gensym-counter* (+ *gensym-counter* 1))
      (string->symbol
       (string-append "slib:G" (number->string *gensym-counter*))))))

(define base:eval slib:eval)
(define (defmacro:eval x) (base:eval (defmacro:expand* x)))
(define (defmacro:expand* x)
  (require 'defmacroexpand) (apply defmacro:expand* x '()))

(define (defmacro:load <pathname>)
  (slib:eval-load <pathname> defmacro:eval))
;; slib:eval-load definition moved to "require.scm"

(define slib:warn
  (lambda args
    (let ((cep (current-error-port)))
      (if (provided? 'trace) (print-call-stack cep))
      (display "Warn: " cep)
      (for-each (lambda (x) (display #\space cep) (write x cep)) args))))

;;; define an error procedure for the library
(define slib:error
  (let ((error error))
    (lambda args
      (if (provided? 'trace) (print-call-stack (current-error-port)))
      (apply error args))))

;;; define these as appropriate for your system.
(define slib:tab #\tab)
(define slib:form-feed #\form)

;;; Define these if your implementation's syntax can support it and if
;;; they are not already defined.
;(define (1+ n) (+ n 1))
(define (1- n) (+ n -1))
;(define (-1+ n) (+ n -1))

;;; Define SLIB:EXIT to be the implementation procedure to exit or
;;; return if exiting not supported.
(define slib:exit (lambda args (exit))

(define (string . args) (apply string-append (map char->string args)))

(define make-string
  (let ((t:make-string (*value standard-env 'make-string)))
    (lambda (a . b)
      (let ((str (t:make-string a)))
	(if b (map-string! (lambda (x) (ignore x) (car b)) str) str)))))

(define (string>? a b)
  (labels ((aux
	    (lambda (n a b)
	      ;;start off with n<=(string-length b) and n<=(string-length a)
	      ;;a,b coincide for chars <n
	      (cond ((= (string-length a) n) (< n (string-length b)))
					;;now (< n (string-length a))
		    ((= (string-length b) n) '#f)
					;;now (< n (string-length a))
		    ((char=? (nthchar a n) (nthchar b n) ) (aux (+ 1 n) a b))
		    ('#t (char<? (nthchar b n) (nthchar a n)))))))
    (aux 0 a b)))

(define (string<? a b) (string>? b a))
(define (string<=? a b) (not (string>? a b)))
(define (string>=? a b) (not (string<? a b)))

(define (string-ci<? a b)
  (string<? (string-upcase a) (string-upcase b)))

(define (string-ci>? a b)
  (string>? (string-upcase a) (string-upcase b)))

(define (string-ci<=? a b)
  (string<=? (string-upcase a) (string-upcase b)))

(define (string-ci>=? a b)
  (string>=? (string-upcase a) (string-upcase b)))

;;; FORCE-OUTPUT flushes any pending output on optional arg output port
;;; use this definition if your system doesn't have such a procedure.
;;; T already has it, but requires 1 argument.
(define force-output
  (let ((t:force-output (*value standard-env 'force-output)))
    (lambda x
      (if x
	  (t:force-output (car x))
	  (t:force-output (current-output-port))))))

;;; CALL-WITH-INPUT-STRING and CALL-WITH-OUTPUT-STRING are the string
;;; port versions of CALL-WITH-*PUT-FILE.
(define (call-with-output-string proc)
  (with-output-to-string var (proc var)))

(define (call-with-input-string string proc)
  (with-input-from-string (variable string) (proc variable)))

(define (make-exchanger obj)
  (lambda (rep) (let ((old obj)) (set! obj rep) old)))
(define (open-file filename modes)
  (case modes
    ((r rb) (open-input-file filename))
    ((w wb) (open-output-file filename))
    (else (slib:error 'open-file 'mode? modes))))
(define (port? obj) (or (input-port? port) (output-port? port)))
(define (call-with-open-ports . ports)
  (define proc (car ports))
  (cond ((procedure? proc) (set! ports (cdr ports)))
	(else (set! ports (reverse ports))
	      (set! proc (car ports))
	      (set! ports (reverse (cdr ports)))))
  (let ((ans (apply proc ports)))
    (for-each close-port ports)
    ans))
(define (close-port port)
  (cond ((input-port? port)
	 (close-input-port port)
	 (if (output-port? port) (close-output-port port)))
	((output-port? port) (close-output-port port))
	(else (slib:error 'close-port 'port? port))))

(define (browse-url url)
  (slib:warn "define BROWSE-URL in t3.init"))

(define (string->number s . x)
  (let ((base (if x (car x) 10))
	(s (string-upcase s)))
    (or (mem? = base '(8 10 16))
	(error (format (current-error-port) "Bad radix ~A" base)))
    (if (= (string-length s) 0) '()
	(let ((char->number
	       (lambda (ch)
		 (cdr (ass char=? ch
			   '((#\0 . 0)
			     (#\1 . 1) (#\2 . 2) (#\3 . 3) (#\4 . 4)
			     (#\5 . 5) (#\6 . 6) (#\7 . 7) (#\8 . 8)
			     (#\9 . 9) (#\A . 10) (#\B . 11) (#\C . 12)
			     (#\D . 13) (#\E . 14) (#\F . 15)))))))
	  (catch not-num
		 (iterate loop ((pos (- (string-length s) 1))
				(power 1) (accum 0))
			  (if (< pos 0) accum
			      (let ((num (char->number (string-ref s pos))))
				(or num (not-num '()))
				(or  (< num base) (not-num '()))
				(loop (- pos 1)
				      (* power base)
				      (+ accum (*  num power)))))))))))

(define (number->string n . x)
  (let ((rad (if (car x) (car x) 10)))
    (format nil
	    (case rad
	      ((8) "~O")
	      ((10) "~D")
	      ((16) "~X")
	      (else (error (format (current-error-port)
				   "Bad radix ~A" (car x)))))
	    n)))

(define (inexact? f)
  (float? f))

(define (exact? f)
  (not (inexact? f)))

(define exact->inexact ->float)

(define peek-char
  (let ((t:peek-char (*value standard-env 'peek-char)))
    (lambda p
      (let ((port (if p (car p) (current-input-port))))
	(t:peek-char port)))))

;;;(set ((*value scheme-env 'standard-early-binding-env) 'load) '#f)
;;;(set ((*value scheme-env 'standard-early-binding-env) 'substring) '#f)
(set ((*value scheme-env 'standard-early-binding-env) 'less?) '#f)
(set ((*value scheme-env 'standard-early-binding-env) 'greater?) '#f)
(set ((*value scheme-env 'standard-early-binding-env) 'not-less?) '#f)
(set ((*value scheme-env 'standard-early-binding-env) 'not-greater?) '#f)
(set ((*value scheme-env 'standard-early-binding-env) 'number-equal?) '#f)
(set ((*value scheme-internal-env 'standard-early-binding-env) 'list?) '#f)

(set ((*value t-implementation-env 'SOURCE-FILE-EXTENSION)) 'scm)

;;; Here for backward compatability
(define (scheme-file-suffix) "")

(define load
  (let ((t:load (*value standard-env 'load)))
    (lambda (filespec . x)
      (apply t:load (->filename filespec) x))))

;;; (SLIB:LOAD-SOURCE "foo") should load "foo.scm" or with whatever
;;; suffix all the module files in SLIB have.  See feature 'SOURCE.
(define slib:load-source load)

;;; (SLIB:LOAD-COMPILED "foo") should load the file that was produced
;;; by compiling "foo.scm" if this implementation can compile files.
;;; See feature 'COMPILED.
(define slib:load-compiled load)

;;; At this point SLIB:LOAD must be able to load SLIB files.
(define slib:load slib:load-source)

(slib:load (in-vicinity (library-vicinity) "require") scheme-env)

;;;(define scheme-read-table
;;;  (make-read-table standard-read-table 'modified-read-table))
;;;
;;;(set (read-table-entry scheme-read-table '#\#)
;;;     (lambda  (p ch rtable)
;;;       (ignore ch) (ignore rtable)
;;;       ((*value scheme-env 'string->number)
;;;	(symbol->string (read-refusing-eof p)) 16)))
;;;
;;;(set (port-read-table (standard-input)) scheme-read-table)

; eof