(let ((counter 0))
- (defun make-binding (symbol)
- (cons symbol (format nil "V_~d" (incf counter)))))
+ (defun make-var-binding (symbol)
+ (cons symbol (format nil "v~d" (incf counter)))))
+
+(let ((counter 0))
+ (defun make-func-binding (symbol)
+ (cons symbol (format nil "f~d" (incf counter)))))
+
;;; Concatenate a list of strings, with a separator
(defun join (list separator)
(defvar *compilations* nil)
-(defun ls-compile-sexps (sexps env)
+(defun ls-compile-block (sexps env fenv)
(concat (join (mapcar (lambda (x)
- (concat (ls-compile x env) ";"))
+ (concat (ls-compile x env fenv) ";"))
sexps)
";
")))
-(defun ls-compile-block (sexps env)
- (concat (ls-compile-sexps (butlast sexps) env)
- "return " (ls-compile (car (last sexps)) env) ";"))
-
-
(defun extend-env (args env)
- (append (mapcar #'make-binding args) env))
+ (append (mapcar #'make-var-binding args) env))
(defparameter *env* '())
(defparameter *fenv* '())
;; Creates a new primitive `name' with parameters args and
;; @body. The body can access to the local environment through the
;; variable ENV.
- `(push (list ',name (lambda (env ,@args) ,@body))
+ `(push (list ',name (lambda (env fenv ,@args) ,@body))
*compilations*))
(define-compilation if (condition true false)
(format nil "((~a)? (~a) : (~a))"
- (ls-compile condition env)
- (ls-compile true env)
- (ls-compile false env)))
+ (ls-compile condition env fenv)
+ (ls-compile true env fenv)
+ (ls-compile false env fenv)))
(define-compilation lambda (args &rest body)
(let ((new-env (extend-env args env)))
",")
"){
"
- (ls-compile-block body new-env)
+ (concat (ls-compile-block (butlast body) new-env fenv)
+ "return " (ls-compile (car (last body)) new-env fenv) ";")
"
})")))
+(define-compilation fsetq (var val)
+ (format nil "~a = ~a" (lookup-function var fenv) (ls-compile val env fenv)))
+
(define-compilation setq (var val)
- (format nil "~a = ~a" (lookup-variable var env) (ls-compile val env)))
+ (format nil "~a = ~a" (lookup-variable var env) (ls-compile val env fenv)))
(defun lisp->js (sexp)
(cond
(lisp->js sexp))
(define-compilation debug (form)
- (format nil "console.log(~a)" (ls-compile form env)))
+ (format nil "console.log(~a)" (ls-compile form env fenv)))
(define-compilation while (pred &rest body)
(format nil "(function(){while(~a){~a}})() "
- (ls-compile pred env)
- (ls-compile-sexps body env)))
+ (ls-compile pred env fenv)
+ (ls-compile-block body env fenv)))
(defmacro eval-when-compile (&body body)
`(eval-when (:compile-toplevel :execute)
,@body))
+(defvar *eval-when-compilations*)
(define-compilation eval-when-compile (&rest body)
- (eval (cons 'progn body)))
+ (setq *eval-when-compilations* "")
+ (eval (cons 'progn body))
+ (if (string= *eval-when-compilations* "")
+ nil
+ *eval-when-compilations*))
;;; aritmetic primitives
(define-compilation + (x y)
- (concat "((" (ls-compile x env) ") + (" (ls-compile y env) "))"))
+ (concat "((" (ls-compile x env fenv) ") + (" (ls-compile y env fenv) "))"))
(define-compilation - (x y)
- (concat "((" (ls-compile x env) ") - (" (ls-compile y env) "))"))
+ (concat "((" (ls-compile x env fenv) ") - (" (ls-compile y env fenv) "))"))
(define-compilation * (x y)
- (concat "((" (ls-compile x env) ") * (" (ls-compile y env) "))"))
+ (concat "((" (ls-compile x env fenv) ") * (" (ls-compile y env fenv) "))"))
(define-compilation / (x y)
- (concat "((" (ls-compile x env) ") / (" (ls-compile y env) "))"))
+ (concat "((" (ls-compile x env fenv) ") / (" (ls-compile y env fenv) "))"))
(define-compilation = (x y)
- (concat "((" (ls-compile x env) ") == (" (ls-compile y env) "))"))
+ (concat "((" (ls-compile x env fenv) ") == (" (ls-compile y env fenv) "))"))
-(defun %compile-defvar (name)
- (push (make-binding name) *env*)
- (format nil "var ~a" (lookup-variable name *env*)))
+(defmacro with-eval-when-compilation (&body body)
+ `(setq *eval-when-compilations*
+ (concat *eval-when-compilations* (progn ,@body))))
-(defun ls-compile (sexp &optional env)
+(defun %compile-defvar (name)
+ (push (make-var-binding name) *env*)
+ (with-eval-when-compilation
+ (format nil "var ~a" (lookup-variable name *env*))))
+
+(defun %compile-defun (name)
+ (push (make-func-binding name) *fenv*)
+ (with-eval-when-compilation
+ (format nil "var ~a" (lookup-variable name *fenv*))))
+
+(defun %compile-defmacro (name lambda)
+ (push (cons name (cons 'macro lambda)) *fenv*))
+
+(defun compile-funcall (name args env fenv)
+ (format nil "~a(~{~a~^, ~})"
+ (lookup-function name fenv)
+ (mapcar (lambda (x) (ls-compile x env fenv)) args)))
+
+(defun ls-macroexpand-1 (form &optional env fenv)
+ (let ((function (cdr (assoc (car form) *fenv*))))
+ (if (and (listp function) (eq (car function) 'macro))
+ (apply (eval (cdr function)) (cdr form))
+ form)))
+
+(defun ls-compile (sexp &optional env fenv)
(cond
((symbolp sexp) (lookup-variable sexp env))
((integerp sexp) (format nil "~a" sexp))
((stringp sexp) (format nil "\"~a\"" sexp))
((listp sexp)
- (let ((compiler-func (second (assoc (car sexp) *compilations*))))
- (if compiler-func
- (apply compiler-func env (cdr sexp))
- (funcall (ls-compile (car sexp) env) )
- ;; funcall
- )))))
+ (let ((sexp (ls-macroexpand-1 sexp env fenv)))
+ (let ((compiler-func (second (assoc (car sexp) *compilations*))))
+ (if compiler-func
+ (apply compiler-func env fenv (cdr sexp))
+ (compile-funcall (car sexp) (cdr sexp) env fenv)))))))
+
+
+(defun ls-compile-file (filename output)
+ (with-open-file (in filename)
+ (with-open-file (out output :direction :output :if-exists :supersede)
+ (loop
+ for x = (read in nil) while x
+ for compilation = (ls-compile x)
+ when compilation do (write-line (concat compilation "; ") out)))))
;;; Testing
(defun compile-test ()
- (with-open-file (in "test.lisp")
- (with-open-file (out "test.js" :direction :output :if-exists :supersede)
- (loop
- for x = (read in nil) while x
- do (write-line (concat (ls-compile x) "; ") out)))))
+ (ls-compile-file "test.lisp" "test.js"))
projects / jscl.git / blobdiff