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;;; "alistab.scm" database tables using association lists (assoc)
; Copyright 1994 Aubrey Jaffer
;
;Permission to copy this software, to redistribute it, and to use it
;for any purpose is granted, subject to the following restrictions and
;understandings.
;
;1. Any copy made of this software must include this copyright notice
;in full.
;
;2. I have made no warrantee or representation that the operation of
;this software will be error-free, and I am under no obligation to
;provide any services, by way of maintenance, update, or otherwise.
;
;3. In conjunction with products arising from the use of this
;material, there shall be no use of my name in any advertising,
;promotional, or sales literature without prior written consent in
;each case.
;;; LLDB is (filename . alist-table)
;;; HANDLE is (table-name . TABLE)
;;; TABLE is an alist of (Primary-key . ROW)
;;; ROW is a list of non-primary VALUEs
(define alist-table
(let ((catalog-id 0)
(resources '*base-resources*))
(define (make-base filename dim types)
(list filename
(list catalog-id)
(list resources (list 'free-id 1))))
(define (open-base infile writable)
(cons (if (input-port? infile) #f infile)
((lambda (fun)
(if (input-port? infile)
(fun infile)
(call-with-input-file infile fun)))
read)))
(define (write-base lldb outfile)
((lambda (fun)
(cond ((output-port? outfile) (fun outfile))
((string? outfile) (call-with-output-file outfile fun))
(else #f)))
(lambda (port)
(display (string-append
";;; \"" outfile "\" SLIB alist-table database -*-scheme-*-")
port)
(newline port) (newline port)
(display "(" port) (newline port)
(for-each
(lambda (table)
(display " (" port)
(write (car table) port) (newline port)
(for-each
(lambda (row)
(display " " port) (write row port) (newline port))
(cdr table))
(display " )" port) (newline port))
(cdr lldb))
(display ")" port) (newline port)
; (require 'pretty-print)
; (pretty-print (cdr lldb) port)
(set-car! lldb (if (string? outfile) outfile #f))
#t)))
(define (sync-base lldb)
(cond ((car lldb) (write-base lldb (car lldb)) #t)
(else
;;; (display "sync-base: database filename not known")
#f)))
(define (close-base lldb)
(cond ((car lldb) (write-base lldb (car lldb))
(set-cdr! lldb #f)
(set-car! lldb #f) #t)
((cdr lldb) (set-cdr! lldb #f)
(set-car! lldb #f) #t)
(else
;;; (display "close-base: database not open")
#f)))
(define (make-table lldb dim types)
(let ((free-hand (open-table lldb resources 1 '(atom integer))))
(and free-hand
(let* ((row (remover free-hand 'free-id))
(id #f))
(cond (row
(set! id (car row))
((make-putter 1 '(atom integer)) free-hand 'free-id
(list (+ 1 id)))
(set-cdr! lldb (cons (list id) (cdr lldb)))
id)
(else #f))))))
(define (open-table lldb base-id dim types)
(assoc base-id (cdr lldb)))
(define (remover nalist key)
(let ((alist (cdr nalist)))
(cond ((null? alist) #f)
((equal? key (caar alist))
(set-cdr! nalist (cdr alist))
(cdar alist))
((null? (cdr alist)) #f)
((equal? key (caadr alist))
(set! nalist (cdadr alist))
(set-cdr! alist (cddr alist))
nalist)
(else
(let l ((al (cdr alist)))
(cond ((null? (cdr al)) #f)
((equal? key (caadr al))
(set! nalist (caadr al))
(set-cdr! al (cddr al))
nalist)
(else (l (cdr al)))))))))
(define (kill-table lldb base-id dim types)
(and (remover lldb base-id) #t))
(define handle->base-id car)
(define handle->alist cdr)
(define set-handle-alist! set-cdr!)
(define (present? handle key)
(assoc key (handle->alist handle)))
(define (make-putter prinum types)
(lambda (handle ckey restcols)
(let ((row (assoc ckey (handle->alist handle))))
(cond (row (set-cdr! row restcols))
(else (set-handle-alist!
handle (cons (cons ckey restcols)
(handle->alist handle))))))))
(define (make-getter prinum types)
(lambda (handle ckey)
(let ((row (assoc ckey (handle->alist handle))))
(and row (cdr row)))))
(define (make-list-keyifier prinum types)
(if (= 1 prinum) car list->vector))
(define (make-keyifier-1 type)
identity)
(define (make-key->list prinum types)
(cond ((= 1 prinum) list)
(else vector->list)))
(define (make-key-extractor primary-limit column-type-list index)
(if (= 1 primary-limit) identity
(let ((i (+ -1 index)))
(lambda (v) (vector-ref v i)))))
(define (for-each-key handle operation)
(for-each (lambda (x) (operation (car x))) (handle->alist handle)))
(define (map-key handle operation)
(map (lambda (x) (operation (car x))) (handle->alist handle)))
(define (ordered-for-each-key handle operation)
(define (key->sortable k)
(cond ((number? k) k)
((string? k) k)
((symbol? k) (symbol->string k))
((vector? k) (map key->sortable (vector->list k)))
(else (slib:error "unsortable key" k))))
;; This routine assumes that the car of its operands are either
;; numbers or strings (or lists of those).
(define (car-key-< x y)
(key-< (car x) (car y)))
(define (key-< x y)
(cond ((and (number? x) (number? y)) (< x y))
((number? x) #t)
((number? y) #f)
((string? x) (string<? x y))
((key-< (car x) (car y)) #t)
((key-< (car y) (car x)) #f)
(else (key-< (cdr x) (cdr y)))))
(require 'sort)
(for-each operation
(map cdr (sort! (map (lambda (p) (cons (key->sortable (car p))
(car p)))
(handle->alist handle))
car-key-<))))
(define (supported-type? type)
(case type
((base-id atom integer boolean string symbol expression) #t)
(else #f)))
(define (supported-key-type? type)
(case type
((atom integer symbol string) #t)
(else #f)))
(lambda (operation-name)
(case operation-name
((make-base) make-base)
((open-base) open-base)
((write-base) write-base)
((sync-base) sync-base)
((close-base) close-base)
((make-table) make-table)
((open-table) open-table)
((kill-table) kill-table)
((make-keyifier-1) make-keyifier-1)
((make-list-keyifier) make-list-keyifier)
((make-key->list) make-key->list)
((make-key-extractor) make-key-extractor)
((supported-type?) supported-type?)
((supported-key-type?) supported-key-type?)
((present?) present?)
((make-putter) make-putter)
((make-getter) make-getter)
((delete) remover)
((for-each-key) for-each-key)
((map-key) map-key)
((ordered-for-each-key) ordered-for-each-key)
((catalog-id) catalog-id)
(else #f)
))
))
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