;; Copyright (C) 2021,2022,2023 Tim Vaughan
-;; Author: Tim Vaughan <timv@ughan.xyz>
+;; Author: Tim Vaughan <plugd@thelambdalab.xyz>
;; Created: 13 Oct 2021
;; Version: 1.0
;; Keywords: game
(defun ez-mem-ref-byte (addr)
(aref ez-memory addr))
+(defun ez-mem-ref-bytes (addr count)
+ (mapcar (lambda (offset) (ez-mem-ref-byte (+ addr offset)))
+ (number-sequence 0 (- count 1))))
+
(defun ez-mem-set-byte (addr val)
(aset ez-memory addr val))
+(defun ez-mem-set-bytes (addr vals)
+ (dotimes (i (length vals))
+ (ez-mem-set-byte (+ addr i) (elt vals i))))
+
(defun ez-mem-ref-word (addr)
- (+ (* 256 (aref ez-memory addr))
- (aref ez-memory (+ addr 1))))
+ (logior (lsh (aref ez-memory addr) 8)
+ (aref ez-memory (+ addr 1))))
+
+(defun ez-mem-ref-words (addr count)
+ (mapcar (lambda (offset) (ez-mem-ref-word (+ addr offset)))
+ (number-sequence 0 (- (* 2 count) 1) 2)))
(defun ez-mem-set-word (addr val)
(let ((byte-high (/ val 256))
(aset ez-memory addr byte-high)
(aset ez-memory (+ addr 1) byte-low)))
+(defun ez-mem-ref-string (addr1 addr2)
+ (substring ez-memory addr1 addr2))
+
(defun ez-parse-header ()
(setq ez-version (ez-mem-ref-byte #x0))
(setq ez-himem-addr (ez-mem-ref-word #x4))
(logand (lsh word -5) #b11111)
(logand word #b11111)))
+(defun ez-make-zstring-word (zchar-triple)
+ (let ((c1 (elt zchar-triple 0))
+ (c2 (elt zchar-triple 1))
+ (c3 (elz zchar-triple 2)))
+ (logand )))
+
(defun ez-get-zstring-chars-and-length (base-addr)
(let ((addr base-addr)
(chars nil)
(defun ez-encode (string)
"Encodes a string as a 2-word 5-padded Z-string.
-Used for matching input with dictionary entries when tokenizing."
+Used for matching input with dictionary entries when tokenizing.
+Returns a length-2 list of words for comparison with a dictionary entry."
(let ((chars
(mapcan
(lambda (c)
(t
(list 5 6 (lsh c -5) (logand c #b11111)))))
string)))
- (if (< (length chars) 6)
- (append chars (make-list (- 6 (length chars)) 5))
- (take 6 chars))))
+ (let* ((zstring-chars
+ (if (< (length chars) 6)
+ (append chars (make-list (- 6 (length chars)) 5))
+ (take 6 chars)))
+ (c1 (elt zstring-chars 0))
+ (c2 (elt zstring-chars 1))
+ (c3 (elt zstring-chars 2))
+ (c4 (elt zstring-chars 3))
+ (c5 (elt zstring-chars 4))
+ (c6 (elt zstring-chars 5)))
+ (list
+ (logior (lsh c1 10)
+ (lsh c2 5)
+ c3)
+ (logior (lsh 1 15)
+ (lsh c4 10)
+ (lsh c5 5)
+ c6)))))
;; Dictionary
-(defun ez-parse-dictionary ()
+(defun ez-parse-dictionary-header ()
(let* ((nseps (ez-mem-ref-byte ez-dict-base))
(separators
(mapcar (lambda (i) (ez-mem-ref-byte (+ ez-dict-base i)))
(nentries (ez-mem-ref-word (+ ez-dict-base 2 nseps)))
(entries-base (+ ez-dict-base nseps 4))
(entries nil))
- (dotimes (i nentries)
- (let ((this-base (+ entries-base (* 7 i))))
- (setq entries (cons (cons (ez-get-zstring this-base)
- this-base)
- entries))))
- (setq ez-dict-entries (reverse entries))
+ ;; (dotimes (i nentries)
+ ;; (let ((this-base (+ entries-base (* bytes-per-entry i))))
+ ;; (setq entries (cons (cons (ez-get-zstring this-base)
+ ;; this-base)
+ ;; entries))))
+ ;; (setq ez-dict-entries (reverse entries))
(setq ez-dict-separators separators)))
+(defun ez-is-separator (char)
+ (let* ((nseps (ez-mem-ref-byte ez-dict-base)))
+ (while (and (> nseps 0)
+ (not (= (ez-mem-ref-byte (+ ez-dict-base nseps))
+ char)))
+ (setq nseps (- nseps 1)))
+ (> nseps 0)))
+
+(defun ez-lookup-dictionary (text)
+ (let* ((encoded-text (ez-encode text))
+ (nseps (ez-mem-ref-byte ez-dict-base))
+ (bytes-per-entry (ez-mem-ref-byte (+ ez-dict-base 1 nseps)))
+ (nentries (ez-mem-ref-word (+ ez-dict-base 2 nseps)))
+ (entries-seen 0)
+ (this-entry (+ ez-dict-base nseps 4)))
+
+ (while (and (< entries-seen nentries)
+ (not (equal
+ (ez-mem-ref-words this-entry 2)
+ encoded-text)))
+ (setq entries-seen (+ entries-seen 1))
+ (setq this-entry (+ this-entry bytes-per-entry)))
+
+ (if (< entries-seen nentries)
+ this-entry
+ 0)))
+
;; Call stack
(defvar ez-call-stack nil)
(defun ez-op-read2 (input-string)
(let* ((baddr1 (car ez--next-read-args))
- (baddr2 (cadr ez--next-read-args))
- (dict (ez-get-dictionary))
- (separators (car dict))
- (wordlist (cdr dict))
- (token-start 0))
+ (baddr2 (cadr ez--next-read-args)))
(dotimes (i (length input-string))
(let ((char (elt input-string i)))
- (ez-mem-set-byte (+ baddr1 1 i) char)
+ (ez-mem-set-byte (+ baddr1 1 i) char)))
(ez-mem-set-byte (+ baddr1 1 (length input-string)) 0)
- (ez--tokenize baddr1 baddr2)))))
+ (ez--tokenize baddr1 baddr2))
+ 'run)
-(defun ez--tokenize (taddr baddr)
+(defun ez--tokenize (tb-baddr pb-baddr)
(let ((unfinished t)
(token-start 0)
(token-end 0)
- (token-string ""))
+ (token-count 0))
+
(while unfinished
- (let ((char (ez-mem-ref-byte (+ taddr 1 token-end))))
+ (let ((next-char (ez-mem-ref-byte (+ tb-baddr 1 token-end))))
(cond
- ((eq char ?\s))
- ((memq char ez-dict-separators))
- )
+ ((eq next-char ?\s)
+ ;; Add token
+ (setq token-end (- token-end 1))
+ (let* ((text (ez-mem-ref-string (+ tb-baddr 1 token-start)
+ (+ tb-baddr 1 token-end)))
+ (dict-entry (ez-lookup-dictionary text)))
+ (setq token-count (+ token-count 1))
+ (ez-mem-set-word (+ pb-baddr 2 (* token-count 4))
+ dict-entry)
+ (ez-mem-set-bytes (+ pb-baddr 2 (* token-count 4) 2)
+ (length text)
+ token-start))
+ (setq token-start (+ token-end 1))
+ (setq token-end token-start))
+
+ ((ez-is-separator char)
+ ;; Add token and separator token
+ )
+ ((eq char 0)
+ (setq unfinished nil))
+ (setq token-end (+ token-end 1)))
))))
;; Execution loop
(defun ez-load-and-run (filename)
(ez-load-file filename)
(ez-parse-header)
- (ez-parse-dictionary)
(setq ez-call-stack (list (ez-make-call-stack-frame ez-start-pc)))
(ez-run))