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Latest revision as of 11:11, 1 September 2022

This is an implementation of Brainf*** written in Common Lisp.

(defstruct bf-state
  (program)
  (program-counter 0)
  (memory (make-array 1 :initial-element 0 :adjustable t))
  (memory-pointer 0)
  (stack))

(defmacro with-bf-slots ((program-sym program-counter-sym 
                          memory-sym memory-pointer-sym
                          stack-sym)
                         obj-expr &body body)
 "Macro to replace cumbersome structure slot references with
local lexical macros resembling local variables."
  `(symbol-macrolet ((,program-sym (bf-state-program ,obj-expr))
                     (,program-counter-sym (bf-state-program-counter ,obj-expr))
                     (,memory-sym (bf-state-memory ,obj-expr))
                     (,memory-pointer-sym (bf-state-memory-pointer ,obj-expr))
                     (,stack-sym (bf-state-stack ,obj-expr)))
     ,@body))

(defun adjust-memory (state)
 "Modifies memory and memory-pointer such that memory-pointer is
a valid index to the memory array. If it is too large, the array
is extended; if it is negative, the array is extended, its
contents are shifted forward and the memory-pointer is incremented,
by an amount to make the memory ."
  (with-bf-slots (program pc mem ptr stack) state
    (cond ((>= ptr (length mem))
           (adjust-array mem (1+ ptr) :initial-element 0))
          ((minusp ptr)
           (let ((extent (- ptr)))
             (incf ptr extent)
             (let ((old-memory (copy-seq mem)))
               (setf mem (make-array (+ (length old-memory) extent)))
               (setf (subseq mem extent) old-memory)))))))
 
(defun matching-bracket-for (program bracket-index)
  (loop with depth = 1
        for index from (1+ bracket-index)
        when (>= index (length program))
          do (error "unmatched [ bracket")
        do (case (aref program index)
             (#\[ (incf depth))
             (#\] (decf depth)))
        until (zerop depth)
        finally (return index)))
 
(defun brainfuck-eval (state &optional (stream *standard-output*))
  (with-bf-slots (program pc mem ptr stack) state
    (loop while (< pc (length program)) do
      (case (aref program pc)
        (#\+ (incf (aref mem ptr)))
        (#\- (decf (aref mem ptr)))
        (#\> (incf ptr) (adjust-memory state))
        (#\< (decf ptr) (adjust-memory state))
        (#\[ (if (/= 0 (aref mem ptr))
                 (push (1- pc) stack)
                 (setf pc (matching-bracket-for program pc))))
        (#\] (setf pc (pop stack)))
        (#\. (write-char (code-char (aref mem ptr)) stream)))
      (incf pc))))

(defun brainfuck-compile-guts (program &optional (start 0) (until-bracket nil))
  (loop for insn from start below (length program)
        appending (case (aref program insn)
                    (#\+ `((incf (aref mem ptr))))
                    (#\- `((decf (aref mem ptr))))
                    (#\> `((incf ptr) (adjust-memory state)))
                    (#\< `((decf ptr) (adjust-memory state)))
                    (#\[ (let ((end (matching-bracket-for program insn)))
                           (prog1 
                             `((do () ((= 0 (aref mem ptr)))
                               ,@(brainfuck-compile-guts program (1+ insn) end)))
                             (setf insn end))))
                    (#\] (if until-bracket
                           (if (= until-bracket insn)
                             (loop-finish)
                             (error "internal problem matching brackets"))
                           (error "extra ] bracket")))
                    (#\. `((write-char (code-char (aref mem ptr)) stream))))))
    
(defun brainfuck-compile (program)
  (compile nil `(lambda (&optional (stream *standard-output*))
                  (let ((state (make-bf-state :program ,program)))
                    (with-bf-slots (program pc mem ptr stack) state
                                   ,@(brainfuck-compile-guts program))
                    (values)))))

(defun bf (program) 
  (if (and (not (zerop (length program)))
           (char= #\! (aref program 0)))
    (funcall (brainfuck-compile program))
    (brainfuck-eval (make-bf-state :program program))))
 
(defun bf-repl ()
  "read-eval-print loop for bf. Code prefixed with ! is compiled, otherwise interpreted"
  (loop do (fresh-line)
           (princ "BRAINFUCK> ")
           (bf (read-line))))

Revision as of 13:23, 31 January 2009 (view source) Ce (talk \| contribs) m (<lang>) ← Older edit		Latest revision as of 11:11, 1 September 2022 (view source) PureFox (talk \| contribs) m (Fixed syntax highlighting.)
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Line 1: {{implementation\|Brainf*}}{{collection\|RCBF}} ~~=={{header\|Common Lisp}}==~~ This is an implementation of [[Brainf]] written in [[Common Lisp]]. ~~<lang lisp>~~ ~~(defstruct bf-state~~ <syntaxhighlight lang="lisp">(defstruct bf-state (program) (program-counter 0) (memory (make-array 1 :initial-element 0 :adjustable t)) (memory-pointer 0)) (stack)) (defmacro with-bf-slots ((program-sym program-counter-sym (defun adjust-memory (state)▼ ~~(cond~~ ~~((>=~~ ~~(bf-state~~ memory-sym memory-pointer ~~state)~~-sym ~~(array-dimension~~ ~~(bf-state-memory~~ ~~state)~~ 0) stack-sym) ~~(adjust-array~~ ~~(bf~~ obj-~~state-memory~~expr &body ~~state~~body) "Macro to replace cumbersome structure slot references with (1+ (bf-state-memory-pointer state))▼ local lexical macros resembling local variables." :initial-element 0))▼ `(symbol-macrolet ((<,program-sym (bf-state-~~memory~~program ,obj-~~pointer state~~expr) 0) ~~(let~~ ~~((extent~~ (,program-counter-sym (bf-state-~~memory~~program-~~pointer~~counter ~~state))~~,obj-expr)) (~~incf~~,memory-sym (bf-state-memory~~-pointer~~ ~~state~~,obj-expr) ~~extent~~) ~~(let~~ ~~((old-memory~~ (~~copy~~,memory-~~seq~~pointer-sym (bf-state-memory-pointer ~~state))~~,obj-expr)) (~~setf~~,stack-sym (bf-state-~~memory~~stack ~~state~~,obj-expr))) ,@body)) (make-array (+ (length old-memory) extent)))▼ (setf (subseq (bf-state-memory state) extent)▼ old-memory))))))▼ ▲(defun adjust-memory (state) "Modifies memory and memory-pointer such that memory-pointer is a valid index to the memory array. If it is too large, the array is extended; if it is negative, the array is extended, its contents are shifted forward and the memory-pointer is incremented, by an amount to make the memory ." (with-bf-slots (program pc mem ptr stack) state (cond ((>= ptr (length mem)) ▲ (adjust-array mem (1+ ptr) :initial-element 0)) ((~~places~~minusp ~~nil)~~ptr)▼ (let ((extent (- ptr))) (incf ptr extent) (let ((old-memory (copy-seq mem))) ▲ (setf mem (make-array (+ (length old-memory) extent))) (setf (subseq mem extent) old-memory))))))) (defun matching-bracket-for (program bracket-index) (~~let~~loop with ((depth ~~0))~~= 1 ~~(loop~~ ~~for~~ ~~index~~ := ~~bracket-~~for index ~~then~~from (1+ bracket-index) when (>= index (length program)) do (error ~~'fail~~"unmatched [ bracket") ~~when~~do (~~char= #\[~~case (~~elt~~aref program index)) do (#\[ (incf depth)) ~~when~~ ~~(char=~~ (#\] (~~elt program~~decf ~~index~~depth))) dountil (~~decf~~zerop depth) ~~until~~finally (~~= depth~~return 0index))) ~~finally (return index))))~~ (defun brainfuck-eval (state &optional (stream standard-output))▼ (let ((program (bf-state-program state))▼ ▲ (places nil)) (loop while (< (bf-state-program-counter state) (length program)) do▼ ~~(case (elt program (bf-state-program-counter state))~~ (#\+ (incf (elt (bf-state-memory state) (bf-state-memory-pointer state))))▼ (#\- (decf (elt (bf-state-memory state) (bf-state-memory-pointer state))))▼ ~~(#\> (incf (bf-state-memory-pointer state)) (adjust-memory state))~~ ~~(#\< (decf (bf-state-memory-pointer state)) (adjust-memory state))~~ ~~(#\[ (if (/= 0 (elt (bf-state-memory state) (bf-state-memory-pointer state)))~~ (push (1- (bf-state-program-counter state)) places)▼ (setf (bf-state-program-counter state)▼ (matching-bracket-for program (bf-state-program-counter state)))))▼ (#\] (setf (bf-state-program-counter state) (pop places)))▼ (#\. (write-char (code-char (elt (bf-state-memory state)▼ (bf-state-memory-pointer state)))▼ stream)))▼ (incf (bf-state-program-counter state)))))▼ (defun ~~bf (program) (~~brainfuck-eval (~~make-bf-~~state ~~:program~~&optional ~~program)~~(stream standard-output)) (with-bf-slots (program pc mem ptr stack) state ▲ (loop while (< ~~(bf-state-program-counter state)~~pc (length program)) do (case (aref program pc) (#\+ (incf (aref mem ptr))) (#\- (decf (aref mem ptr))) ▲ (#\+> (incf ~~(elt (bf-state-memory state~~ptr) (~~bf-state~~adjust-memory~~-pointer~~ state)))) ▲ (#\-< (decf ~~(elt (bf-state-memory state~~ptr) (~~bf-state~~adjust-memory~~-pointer~~ state)))) (#\[ (if (/= 0 (aref mem ptr)) ▲ (push (1- ~~(bf-state-program-counter state)~~pc) ~~places~~stack) ▲ (setf pc (bfmatching-~~state~~bracket-for program~~-counter~~ ~~state~~pc)))) ▲ (#\] (setf ~~(bf-state-program-counter state)~~pc (pop ~~places~~stack))) ▲ (#\. (write-char (code-char (~~elt~~aref ~~(bf-state-memory~~mem ~~state~~ptr)) stream))) (incf pc)))) (defun brainfuck-compile-guts (program &optional (start 0) (until-bracket nil)) (loop for insn from start below (length program) appending (case (aref program insn) (#\+ `((incf (aref mem ptr)))) (#\- `((decf (aref mem ptr)))) ▲ (#\> `((incf ptr) (~~1+ (bf-state~~adjust-memory~~-pointer~~ state))) ▲ (~~setf~~#\< `(~~subseq~~(decf ptr) (~~bf-state~~adjust-memory state) ~~extent~~)) ▲ (#\[ (let ((end (matching-bracket-for program ~~(bf-state-program-counter state))~~insn))) ▲ ~~stream)))~~ (prog1 `((do () ((= 0 (aref mem ptr))) ,@(brainfuck-compile-guts program (1+ insn) end))) (setf insn end)))) (#\] (if until-bracket (if (= until-bracket insn) (loop-finish) (error "internal problem matching brackets")) (error "extra ] bracket"))) (#\. `((write-char (code-char (aref mem ptr)) stream)))))) (defun brainfuck-compile (program) ▲ (~~defun~~compile ~~brainfuck-eval~~nil `(~~state~~lambda (&optional (stream standard-output*)) ▲ (let ((~~program~~state (make-bf-state- :program ~~state~~,program))) (with-bf-slots (program pc mem ptr stack) state ▲ ,@(~~bf-state~~brainfuck-~~memory~~compile-~~pointer~~guts ~~state)~~program)) ▲ ~~old-memory)~~ (values))))) (defun bf (program) (if (and (not (zerop (length program))) (char= #\! (aref program 0))) (funcall (brainfuck-compile program)) ▲ (~~incf~~brainfuck-eval (make-bf-state- :program~~-counter~~ ~~state)~~program)))) (defun bf-repl () "read-eval-print loop for bf. Code prefixed with ! is compiled, otherwise interpreted" (loop do (fresh-line) (princ "BRAINFUCK> ") (~~brainfuck-eval (make-~~bf~~-state :program~~ (read-line)))))</syntaxhighlight> ~~</lang>~~