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(in-package :cl-forth)
(defun make-token (sym? line col)
(if (or (numberp sym?) (is-identifier sym?))
(values (list sym? :line line :col col) nil)
(values (list sym? :line line :col col :error t) t)))
(defun token-op (token)
(car token))
;;; LEXER
(defun lex-line (line &optional (line-num 0))
(iter (with line-stream = (make-string-input-stream line))
(with col = 0)
(with has-err = nil)
(for next-char = (peek-char nil line-stream nil nil))
(until (null next-char))
(let ((flag t))
(cond ;; ((char= #\. next-char)
;; (collect (make-token '|.| line-num col) into tokens)
;; (read-char line-stream))
((char= #\| next-char)
(read-char line-stream)
(collect (make-token "|" line-num col) into tokens))
((char= #\Space next-char) (read-char line-stream))
((char= #\; next-char) ;; and not in string
(finish))
(t (setf flag nil)))
(when flag
(incf col)
(next-iteration)))
(for next-sym in-stream line-stream
using #'read-preserving-whitespace)
(multiple-value-bind (token err)
(make-token next-sym line-num col)
(collect token into tokens)
(when err ;; skip line on error and continue lexing
(setf has-err t)
(finish))
(incf col (length (princ-to-string next-sym))))
(finally (return (values tokens has-err)))))
(defun lex-file (file-name &optional report-errors)
(let ((has-error nil))
(values
(with-open-file (str file-name :external-format :utf-8)
(iter outer
(for line = (read-line str nil nil))
(until (null line))
(for line-num from 1)
(multiple-value-bind (tokens has-err)
(lex-line line line-num)
(when has-err
(setf has-error t)
(when report-errors
(format t "~a~%" line)
(let ((err-token (find-if (lambda (tok) (find :error tok))
tokens)))
(format t "~a^~%"
(make-string (getf (cdr err-token) :col)
:initial-element #\Space)))))
(appending tokens))))
has-error)))
(defun lex-string (string &optional report-errors)
(let ((has-error nil))
(values
(let ((str (make-string-input-stream string)))
(iter outer
(for line = (read-line str nil nil))
(until (null line))
(for line-num from 1)
(multiple-value-bind (tokens has-err)
(lex-line line line-num)
(when has-err
(setf has-error t)
(when report-errors
(format t "~a~%" line)
(let ((err-token (find-if (lambda (tok) (find :error tok))
tokens)))
(format t "~a^"
(make-string (getf (cdr err-token) :col)
:initial-element #\Space)))))
(appending tokens))))
has-error)))
;;; PARSER
(defun parse-tokens (tokens)
(iter (with ops = (make-array (length tokens) :fill-pointer 0
:adjustable t))
(with stack = ())
(for i from 0)
(for token in tokens)
(let ((op (token-op token)))
(cond ((numberp op)
(vector-push-extend `(push ,op) ops))
((string= 'ise op)
(push (list 'ise i) stack)
(vector-push-extend (list 'ise nil) ops))
((string= 'yoksa op)
(let ((top (pop stack)))
(assert (string= 'ise (car top)))
(setf (second (aref ops (cadr top))) i)
(push (list 'yoksa i) stack)
(vector-push-extend (list 'yoksa nil i) ops)))
((string= 'yap op)
(let ((top (pop stack)))
(cond ((find (car top) (list 'yoksa 'ise))
(setf (second (aref ops (cadr top))) i)
(vector-push-extend (list 'yap i) ops))
((string= 'iken (car top))
(setf (second (aref ops (cadr top))) i)
(vector-push-extend (list 'yap i (third top)) ops))
(t (error "yap cannot reference: ~a" (car top))))))
((string= 'döngü op)
(push (list 'döngü i) stack)
(vector-push-extend (list 'döngü i) ops))
((string= 'iken op)
(let ((top (pop stack)))
(assert (string= 'döngü (car top)))
(push (list 'iken i (cadr top)) stack)
(vector-push-extend (list 'iken nil) ops)))
((search "syscall" (string-downcase (string op)))
(let ((syscall-num (parse-integer (subseq (string op) 8))))
(vector-push-extend (list 'syscall syscall-num) ops)))
(t (vector-push-extend (list op) ops))))
(finally (return ops))))
(defun make-program (file-name)
(multiple-value-bind (tokens has-error)
(lex-file file-name t)
(when has-error
(error "Can't generate program due to error during lexing"))
(parse-tokens tokens)))
;;; INTERPRETER
;; (eval-always
;; (define-condition op-not-implemented (style-warning)
;; ((undef-ops :initarg :ops :reader undef-ops))
;; (:report (lambda (condition stream)
;; (format stream "These ops are not defined in op-case: ~s"
;; (undef-ops condition)))))
;; (defun identifier-coverage (defined-ops)
;; (let ((undef-ops (set-difference *identifiers* defined-ops)))
;; (unless (null undef-ops)
;; (warn (make-condition 'op-not-implemented :ops undef-ops))))))
;; (defmacro op-case (case-form &body body)
;; (iter (for (op-id) in body)
;; (when (not (is-identifier op-id))
;; (error "op-case: ~a is not an identifier" op-id))
;; (collect op-id into defined-ops)
;; (finally (identifier-coverage defined-ops)))
;; (let ((case-sym (gensym)))
;; `(let ((,case-sym ,case-form))
;; (case ,case-sym
;; ,@body
;; (otherwise (if (is-identifier (first ,case-sym))
;; (error "op: ~a -- Not implemented yet"
;; (first ,case-sym))
;; (error "op: ~a -- Does not exist"
;; (first ,case-sym))))))))
;; (defun interpret-program (program)
;; (iter (with stack = (make-array 100 :fill-pointer 0 :adjustable t))
;; ;; (for op in-sequence program)
;; (for i from 0 below (length program))
;; (let ((op (aref program i)))
;; (op-case (first op)
;; (push (vector-push-extend (second op) stack))
;; (+ (vector-push-extend (+ (vector-pop stack)
;; (vector-pop stack))
;; stack))
;; (- (vector-push-extend (let ((top (vector-pop stack)))
;; (- (vector-pop stack) top))
;; stack))
;; (dump (print (vector-pop stack)))
;; (= (vector-push-extend (if (= (vector-pop stack)
;; (vector-pop stack))
;; 1 0)
;; stack))
;; (yap (next-iteration))
;; (yoksa (setf i (second op)))
;; (ise (if (= (vector-pop stack) 1)
;; nil
;; (setf i (second op))))
;; (eş (let ((top (vector-pop stack)))
;; (vector-push-extend top stack)
;; (vector-push-extend top stack)))
;; (değiş (let* ((fst (vector-pop stack))
;; (snd (vector-pop stack)))
;; (vector-push-extend fst stack)
;; (vector-push-extend snd stack)))
;; (düş (vector-pop stack))
;; (üst (let* ((fst (vector-pop stack))
;; (snd (vector-pop stack)))
;; (vector-push-extend snd stack)
;; (vector-push-extend fst stack)
;; (vector-push-extend snd stack)))
;; (rot (let* ((fst (vector-pop stack))
;; (snd (vector-pop stack))
;; (trd (vector-pop stack)))
;; (vector-push-extend snd stack)
;; (vector-push-extend fst stack)
;; (vector-push-extend trd stack)))))))
;;; COMPILER
(defun write-program (program out &key (mem-cap 640000))
(format out "~a~%" "segment .text")
(gen-dump out)
(format out "~{~a~%~}" '("global _start"
"_start:"))
(iter (for op in-sequence program)
(gen-header op out)
(gen-code op out))
(gen-header '(exit 0) out)
(gen-code '(exit 0) out)
(format out "~a~%" "segment .bss")
(format out "~a ~a~%" "bel: resb" mem-cap))
(defun generate-program (program &key (path "output.asm") (compile nil)
(mem-cap 640000) (silence nil))
(with-open-file (out path :direction :output
:if-exists :supersede)
(write-program program out :mem-cap mem-cap))
(when compile
(run `("nasm" "-felf64" ,path) :output t :silence silence)
(let ((name (first (uiop:split-string path :separator '(#\.)))))
(run `("ld" "-o" ,name ,(concatenate 'string name ".o"))
:output t :silence silence))))
(defun compile-program (path)
(generate-program (make-program path) :compile t))
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