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(in-package :cl-forth)
(defparameter *operations* (make-hash-table :test 'equal))
(defparameter *psuedo-identifiers*
'(syscall-1 syscall-2 syscall-3 syscall-4 syscall-5 syscall-6)
"These do not map to operations directly, but are valid to lexer")
(defparameter *identifiers* ())
;; '(+ - dump = ise yoksa yap eş push değiş üst rot düş döngü iken < >
;; bel oku yaz >> << & "|")
(defun is-identifier (sym)
(or (find sym *identifiers* :test #'string=)
(find sym *psuedo-identifiers* :test #'string=)))
(eval-always
(defun normalize-op-list (asm-list)
(cons 'list
(mapcar (lambda (el) (cond ((stringp el) el)
((listp el) `(format nil ,@el))))
asm-list)))
(defun defop-format (str space-num asm-list)
(format str
(format nil "~~{~a~~a~~%~~}"
(make-string space-num :initial-element #\Space))
asm-list))
(defun replace-write (out-stream indent forms)
(if (consp forms)
(if (eq :write (car forms))
`(defop-format ,out-stream ,indent
,(normalize-op-list (cdr forms)))
(cons (replace-write out-stream indent (car forms))
(replace-write out-stream indent (cdr forms))))
forms))
(defun add-indent (indent fmt-string)
(format nil "~a~a"
(make-string indent :initial-element #\Space)
fmt-string))
(defun split-stack (stack)
(let ((split-num (position '-- stack)))
(values (butlast stack (- (length stack) split-num))
(nthcdr (+ 1 split-num) stack))))
(defun op->string (asm-instruction &key (push? t))
"asm-instruction is something like (:add rax rbx)"
(destructuring-bind (op arg1 arg2) asm-instruction
(let ((*print-case* :downcase))
(if (null push?)
(format nil (format nil "~a ~a, ~a" op arg1 arg2))
(list (format nil "~a ~a, ~a" op arg1 arg2)
(format nil "push ~a" arg1))))))
(defun stack->string (stack)
(multiple-value-bind (prev next)
(split-stack stack)
(let ((*print-case* :downcase))
(append (iter (for sym in (reverse prev))
(collect (format nil "pop ~a" sym)))
(iter (for form in next)
(cond ((symbolp form)
(appending (list (format nil "push ~a" form))))
((listp form)
(appending (op->string form)))))))))
(defun syntax-of (form)
(cond ((or (stringp form)
(and (consp form) (stringp (car form))))
:string)
((and (listp form) (find '-- form))
:stack)
((and (listp form) (keywordp (car form)))
:op)
(t :general)))
(defun group-by-syntax (forms &optional (syntax nil) (cur ()) (acc ()))
(when (null forms)
(return-from group-by-syntax
(cdr (reverse (append (list (cons (syntax-of (car cur))
(reverse cur)))
acc)))))
(let* ((form (car forms))
(form-syntax (syntax-of form)))
(cond ((eq syntax form-syntax)
(group-by-syntax (cdr forms) syntax
(cons form cur) acc))
(t (group-by-syntax (cdr forms) form-syntax
(list form) (append (list (cons syntax
(reverse cur)))
acc))))))
(defun expand-group (group out-stream &key (indent 4))
(destructuring-bind (syntax-type . forms) group
(case syntax-type
(:stack `(defop-format ,out-stream ,indent
,(cons 'list (mapcan (lambda (form) (stack->string form))
forms))))
(:op `(defop-format ,out-stream ,indent
,(cons 'list (mapcar (lambda (form) (op->string form :push? nil))
forms))))
(:string `(defop-format ,out-stream ,indent
,(normalize-op-list forms)))
(:general `(progn ,@(mapcar (lambda (form) (replace-write out-stream indent
form))
forms)))))))
(defmacro defop (op-name+args (&key (indent 4) (lex t)) &body body)
(with-gensyms (out-stream)
(destructuring-bind (op-name . args) (mklist op-name+args)
`(progn
,@(unless (null lex)
`((push ',op-name *identifiers*)))
(setf (gethash ,(string op-name) *operations*)
(lambda (,out-stream ,@args)
,@(mapcar #'(lambda (group) (expand-group group out-stream
:indent indent))
(group-by-syntax body))))))))
;;; TODO: Turn stack operation comments to DEFOP option,
;;; which then can be used by the user as a documentation
;;; DONE: Better yet, generate the asm code directly from
;;; the stack op documentation (this seems easily doable)
;;; Hopefully these two are done, need testing...
;; ( -- a)
(defop (push a) (:lex nil)
("push ~d" a))
(defop + ()
(rbx rax -- (:add rax rbx)))
(defop - ()
(rbx rax -- (:sub rbx rax)))
(defop = ()
(:mov rcx 0)
(:mov rdx 1)
(rbx rax -- )
(:cmp rax rbx)
( -- (:cmove rcx rdx)))
(defop eş ()
(rax -- rax rax))
(defop düş ()
(rax -- ))
(defop < ()
(:mov rcx 0)
(:mov rdx 1)
(rax rbx -- )
(:cmp rax rbx)
( -- (:cmovl rcx rdx)))
(defop > ()
(:mov rcx 0)
(:mov rdx 1)
(rax rbx -- )
(:cmp rax rbx)
( -- (:cmovg rcx rdx)))
(defop bel ()
( -- bel))
(defop oku ()
(rax -- )
(:xor rbx rbx)
(:mov bl [rax])
( -- rbx))
(defop yaz ()
(rax rbx -- )
(:mov [rax] bl))
(defop üst ()
(rbx rax -- rbx rax rbx))
(defop rot ()
(rcx rbx rax -- rbx rax rcx))
(defop değiş ()
(rbx rax -- rax rbx))
(defop << ()
(rbx rcx -- (:shl rbx cl)))
(defop >> ()
(rbx rcx -- (:shr rbx cl)))
(defop "|" ()
(rbx rax -- (:or rbx rax)))
(defop & ()
(rbx rax -- (:and rbx rax)))
(defop dump ()
"pop rdi"
"call dump")
(defop (exit code) (:lex nil)
"mov rax, 60"
("mov rdi, ~a" code)
"syscall")
(defop (ise label-num) ()
"pop rax"
"test rax, rax"
("jz et_~a" label-num))
(defop (yoksa yap-num ise-num) (:indent 0)
(" jmp et_~a" yap-num)
("et_~a:" ise-num))
(defop (yap label-num &optional döngü-num) (:indent 0)
(if (null döngü-num)
(:write ("et_~a:" label-num))
(:write (" jmp et_~a" döngü-num)
("et_~a:" label-num))))
(defop (iken label-num) ()
"pop rax"
"test rax, rax"
("jz et_~a" label-num))
(defop (döngü label-num) (:indent 0)
("et_~a:" label-num))
(defop (syscall num) (:lex nil)
(iter (with call-regs = #("rdi" "rsi" "rdx" "r10" "r8" "r9"))
(initially (:write "pop rax"))
(for i from (- num 1) downto 0)
(:write ("pop ~a" (aref call-regs i)))
(finally (:write "syscall"))))
(defun gen-header (op str)
(format str " ;; -- ~s --~%" op))
(defun gen-code (op str)
(let ((op-fn (gethash (string (car op)) *operations*)))
(if (null op-fn)
(error "~s is not a valid op" op)
(apply op-fn str (cdr op)))))
(defun gen-dump (str)
(format str "~{~a~%~}"
'("dump:"
" mov r9, -3689348814741910323"
" sub rsp, 40"
" mov BYTE [rsp+31], 10"
" lea rcx, [rsp+30]"
".L2:"
" mov rax, rdi"
" lea r8, [rsp+32]"
" mul r9"
" mov rax, rdi"
" sub r8, rcx"
" shr rdx, 3"
" lea rsi, [rdx+rdx*4]"
" add rsi, rsi"
" sub rax, rsi"
" add eax, 48"
" mov BYTE [rcx], al"
" mov rax, rdi"
" mov rdi, rdx"
" mov rdx, rcx"
" sub rcx, 1"
" cmp rax, 9"
" ja .L2"
" lea rax, [rsp+32]"
" mov edi, 1"
" sub rdx, rax"
" xor eax, eax"
" lea rsi, [rsp+32+rdx]"
" mov rdx, r8"
" mov rax, 1"
" syscall"
" add rsp, 40"
" ret")))
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