;;; ecmalisp.lisp ---
-;; Copyright (C) 2012 David Vazquez
+;; Copyright (C) 2012, 2013 David Vazquez
;; Copyright (C) 2012 Raimon Grau
;; This program is free software: you can redistribute it and/or
;;; as well as funcalls and macroexpansion, but no functions. So, we
;;; define the Lisp world from scratch. This code has to define enough
;;; language to the compiler to be able to run.
+
#+ecmalisp
(progn
- (eval-when-compile
- (%compile-defmacro 'defmacro
- '(lambda (name args &rest body)
- `(eval-when-compile
- (%compile-defmacro ',name
- '(lambda ,(mapcar (lambda (x)
- (if (eq x '&body)
- '&rest
- x))
- args)
- ,@body))))))
-
- (defmacro %defvar (name value)
- `(progn
- (eval-when-compile
- (%compile-defvar ',name))
- (setq ,name ,value)))
-
- (defmacro defvar (name &optional value)
- `(%defvar ,name ,value))
+ (eval-when-compile
+ (%compile-defmacro 'defmacro
+ '(function
+ (lambda (name args &rest body)
+ `(eval-when-compile
+ (%compile-defmacro ',name
+ '(function
+ (lambda ,(mapcar #'(lambda (x)
+ (if (eq x '&body)
+ '&rest
+ x))
+ args)
+ ,@body))))))))
+
+ (defmacro declaim (&rest decls)
+ `(eval-when-compile
+ ,@(mapcar (lambda (decl) `(!proclaim ',decl)) decls)))
+
+ (defmacro defconstant (name value &optional docstring)
+ `(progn
+ (declaim (special ,name))
+ (declaim (constant ,name))
+ (setq ,name ,value)
+ ,@(when (stringp docstring) `((oset ',name "vardoc" ,docstring)))
+ ',name))
+
+ (defconstant t 't)
+ (defconstant nil 'nil)
+ (js-vset "nil" nil)
+
+ (defmacro lambda (args &body body)
+ `(function (lambda ,args ,@body)))
+
+ (defmacro when (condition &body body)
+ `(if ,condition (progn ,@body) nil))
+
+ (defmacro unless (condition &body body)
+ `(if ,condition nil (progn ,@body)))
+
+ (defmacro defvar (name value &optional docstring)
+ `(progn
+ (declaim (special ,name))
+ (unless (boundp ',name) (setq ,name ,value))
+ ,@(when (stringp docstring) `((oset ',name "vardoc" ,docstring)))
+ ',name))
+
+ (defmacro defparameter (name value &optional docstring)
+ `(progn
+ (setq ,name ,value)
+ ,@(when (stringp docstring) `((oset ',name "vardoc" ,docstring)))
+ ',name))
(defmacro named-lambda (name args &rest body)
(let ((x (gensym "FN")))
`(let ((,x (lambda ,args ,@body)))
- (set ,x "fname" ,name)
+ (oset ,x "fname" ,name)
,x)))
- (defmacro %defun (name args &rest body)
+ (defmacro defun (name args &rest body)
`(progn
- (eval-when-compile
- (%compile-defun ',name))
- (fsetq ,name (named-lambda ,(symbol-name name) ,args
- ,@body))))
+ (fset ',name
+ (named-lambda ,(symbol-name name) ,args
+ ,@(if (and (stringp (car body)) (not (null (cdr body))))
+ `(,(car body) (block ,name ,@(cdr body)))
+ `((block ,name ,@body)))))
+ ',name))
- (defmacro defun (name args &rest body)
- `(%defun ,name ,args ,@body))
-
- (defvar *package* (new))
-
- (defvar nil (make-symbol "NIL"))
- (set *package* "NIL" nil)
-
- (defvar t (make-symbol "T"))
- (set *package* "T" t)
-
- (defun null (x)
- (eq x nil))
-
- (defmacro return (value)
- `(return-from nil ,value))
-
- (defun internp (name)
- (in name *package*))
-
- (defun intern (name)
- (if (internp name)
- (get *package* name)
- (set *package* name (make-symbol name))))
-
- (defun find-symbol (name)
- (get *package* name))
-
- (defvar *gensym-counter* 0)
- (defun gensym (&optional (prefix "G"))
- (setq *gensym-counter* (+ *gensym-counter* 1))
- (make-symbol (concat-two prefix (integer-to-string *gensym-counter*))))
-
- ;; Basic functions
- (defun = (x y) (= x y))
- (defun + (x y) (+ x y))
- (defun - (x y) (- x y))
- (defun * (x y) (* x y))
- (defun / (x y) (/ x y))
- (defun 1+ (x) (+ x 1))
- (defun 1- (x) (- x 1))
- (defun zerop (x) (= x 0))
- (defun truncate (x y) (floor (/ x y)))
-
- (defun eql (x y) (eq x y))
-
- (defun not (x) (if x nil t))
-
- (defun cons (x y ) (cons x y))
- (defun consp (x) (consp x))
- (defun car (x) (car x))
- (defun cdr (x) (cdr x))
- (defun caar (x) (car (car x)))
- (defun cadr (x) (car (cdr x)))
- (defun cdar (x) (cdr (car x)))
- (defun cddr (x) (cdr (cdr x)))
- (defun caddr (x) (car (cdr (cdr x))))
- (defun cdddr (x) (cdr (cdr (cdr x))))
- (defun cadddr (x) (car (cdr (cdr (cdr x)))))
- (defun first (x) (car x))
- (defun second (x) (cadr x))
- (defun third (x) (caddr x))
- (defun fourth (x) (cadddr x))
-
- (defun list (&rest args) args)
- (defun atom (x)
- (not (consp x)))
-
- ;; Basic macros
+ (defun null (x)
+ (eq x nil))
+
+ (defun endp (x)
+ (if (null x)
+ t
+ (if (consp x)
+ nil
+ (error "type-error"))))
+
+ (defmacro return (&optional value)
+ `(return-from nil ,value))
+
+ (defmacro while (condition &body body)
+ `(block nil (%while ,condition ,@body)))
+
+ (defvar *gensym-counter* 0)
+ (defun gensym (&optional (prefix "G"))
+ (setq *gensym-counter* (+ *gensym-counter* 1))
+ (make-symbol (concat-two prefix (integer-to-string *gensym-counter*))))
+
+ (defun boundp (x)
+ (boundp x))
+
+ ;; Basic functions
+ (defun = (x y) (= x y))
+ (defun * (x y) (* x y))
+ (defun / (x y) (/ x y))
+ (defun 1+ (x) (+ x 1))
+ (defun 1- (x) (- x 1))
+ (defun zerop (x) (= x 0))
+ (defun truncate (x y) (floor (/ x y)))
+
+ (defun eql (x y) (eq x y))
+
+ (defun not (x) (if x nil t))
+
+ (defun cons (x y ) (cons x y))
+ (defun consp (x) (consp x))
+
+ (defun car (x)
+ "Return the CAR part of a cons, or NIL if X is null."
+ (car x))
+
+ (defun cdr (x) (cdr x))
+ (defun caar (x) (car (car x)))
+ (defun cadr (x) (car (cdr x)))
+ (defun cdar (x) (cdr (car x)))
+ (defun cddr (x) (cdr (cdr x)))
+ (defun cadar (x) (car (cdr (car x))))
+ (defun caddr (x) (car (cdr (cdr x))))
+ (defun cdddr (x) (cdr (cdr (cdr x))))
+ (defun cadddr (x) (car (cdr (cdr (cdr x)))))
+ (defun first (x) (car x))
+ (defun second (x) (cadr x))
+ (defun third (x) (caddr x))
+ (defun fourth (x) (cadddr x))
+ (defun rest (x) (cdr x))
+
+ (defun list (&rest args) args)
+ (defun atom (x)
+ (not (consp x)))
+
+ ;; Basic macros
(defmacro incf (x &optional (delta 1))
`(setq ,x (+ ,x ,delta)))
(defmacro decf (x &optional (delta 1))
`(setq ,x (- ,x ,delta)))
- (defmacro push (x place)
- `(setq ,place (cons ,x ,place)))
-
- (defmacro when (condition &body body)
- `(if ,condition (progn ,@body) nil))
-
- (defmacro unless (condition &body body)
- `(if ,condition nil (progn ,@body)))
-
- (defmacro dolist (iter &body body)
- (let ((var (first iter))
- (g!list (gensym)))
- `(let ((,g!list ,(second iter))
- (,var nil))
- (while ,g!list
- (setq ,var (car ,g!list))
- ,@body
- (setq ,g!list (cdr ,g!list)))
- ,(third iter))))
-
- (defmacro dotimes (iter &body body)
- (let ((g!to (gensym))
- (var (first iter))
- (to (second iter))
- (result (third iter)))
- `(let ((,var 0)
- (,g!to ,to))
- (while (< ,var ,g!to)
- ,@body
- (incf ,var))
- ,result)))
-
- (defmacro cond (&rest clausules)
- (if (null clausules)
- nil
- (if (eq (caar clausules) t)
- `(progn ,@(cdar clausules))
- `(if ,(caar clausules)
- (progn ,@(cdar clausules))
- (cond ,@(cdr clausules))))))
-
- (defmacro case (form &rest clausules)
- (let ((!form (gensym)))
- `(let ((,!form ,form))
- (cond
- ,@(mapcar (lambda (clausule)
- (if (eq (car clausule) t)
- clausule
- `((eql ,!form ',(car clausule))
- ,@(cdr clausule))))
- clausules)))))
+ (defmacro push (x place)
+ `(setq ,place (cons ,x ,place)))
+
+ (defmacro dolist (iter &body body)
+ (let ((var (first iter))
+ (g!list (gensym)))
+ `(block nil
+ (let ((,g!list ,(second iter))
+ (,var nil))
+ (%while ,g!list
+ (setq ,var (car ,g!list))
+ (tagbody ,@body)
+ (setq ,g!list (cdr ,g!list)))
+ ,(third iter)))))
+
+ (defmacro dotimes (iter &body body)
+ (let ((g!to (gensym))
+ (var (first iter))
+ (to (second iter))
+ (result (third iter)))
+ `(block nil
+ (let ((,var 0)
+ (,g!to ,to))
+ (%while (< ,var ,g!to)
+ (tagbody ,@body)
+ (incf ,var))
+ ,result))))
+
+ (defmacro cond (&rest clausules)
+ (if (null clausules)
+ nil
+ (if (eq (caar clausules) t)
+ `(progn ,@(cdar clausules))
+ `(if ,(caar clausules)
+ (progn ,@(cdar clausules))
+ (cond ,@(cdr clausules))))))
+
+ (defmacro case (form &rest clausules)
+ (let ((!form (gensym)))
+ `(let ((,!form ,form))
+ (cond
+ ,@(mapcar (lambda (clausule)
+ (if (eq (car clausule) t)
+ clausule
+ `((eql ,!form ',(car clausule))
+ ,@(cdr clausule))))
+ clausules)))))
(defmacro ecase (form &rest clausules)
`(case ,form
`(let ((,g ,(car forms)))
(if ,g ,g (or ,@(cdr forms))))))))
- (defmacro prog1 (form &body body)
- (let ((value (gensym)))
- `(let ((,value ,form))
- ,@body
- ,value))))
+ (defmacro prog1 (form &body body)
+ (let ((value (gensym)))
+ `(let ((,value ,form))
+ ,@body
+ ,value)))
+
+ (defmacro prog2 (form1 result &body body)
+ `(prog1 (progn ,form1 ,result) ,@body)))
+
;;; This couple of helper functions will be defined in both Common
;;; Lisp and in Ecmalisp.
x
(list x)))
-(defun !reduce (func list initial)
+(defun !reduce (func list &key initial-value)
(if (null list)
- initial
+ initial-value
(!reduce func
(cdr list)
- (funcall func initial (car list)))))
+ :initial-value (funcall func initial-value (car list)))))
;;; Go on growing the Lisp language in Ecmalisp, with more high
;;; level utilities as well as correct versions of other
;;; constructions.
#+ecmalisp
(progn
- (defmacro defun (name args &body body)
- `(progn
- (%defun ,name ,args ,@body)
- ',name))
-
- (defmacro defvar (name &optional value)
- `(progn
- (%defvar ,name ,value)
- ',name))
+ (defun + (&rest args)
+ (let ((r 0))
+ (dolist (x args r)
+ (incf r x))))
+
+ (defun - (x &rest others)
+ (if (null others)
+ (- x)
+ (let ((r x))
+ (dolist (y others r)
+ (decf r y)))))
(defun append-two (list1 list2)
(if (null list1)
(append (cdr list1) list2))))
(defun append (&rest lists)
- (!reduce #'append-two lists '()))
+ (!reduce #'append-two lists))
- (defun reverse-aux (list acc)
- (if (null list)
- acc
- (reverse-aux (cdr list) (cons (car list) acc))))
+ (defun revappend (list1 list2)
+ (while list1
+ (push (car list1) list2)
+ (setq list1 (cdr list1)))
+ list2)
(defun reverse (list)
- (reverse-aux list '()))
+ (revappend list '()))
+
+ (defmacro psetq (&rest pairs)
+ (let ( ;; For each pair, we store here a list of the form
+ ;; (VARIABLE GENSYM VALUE).
+ (assignments '()))
+ (while t
+ (cond
+ ((null pairs) (return))
+ ((null (cdr pairs))
+ (error "Odd paris in PSETQ"))
+ (t
+ (let ((variable (car pairs))
+ (value (cadr pairs)))
+ (push `(,variable ,(gensym) ,value) assignments)
+ (setq pairs (cddr pairs))))))
+ (setq assignments (reverse assignments))
+ ;;
+ `(let ,(mapcar #'cdr assignments)
+ (setq ,@(!reduce #'append (mapcar #'butlast assignments))))))
+
+ (defmacro do (varlist endlist &body body)
+ `(block nil
+ (let ,(mapcar (lambda (x) (list (first x) (second x))) varlist)
+ (while t
+ (when ,(car endlist)
+ (return (progn ,@(cdr endlist))))
+ (tagbody ,@body)
+ (psetq
+ ,@(apply #'append
+ (mapcar (lambda (v)
+ (and (consp (cddr v))
+ (list (first v) (third v))))
+ varlist)))))))
+
+ (defmacro do* (varlist endlist &body body)
+ `(block nil
+ (let* ,(mapcar (lambda (x) (list (first x) (second x))) varlist)
+ (while t
+ (when ,(car endlist)
+ (return (progn ,@(cdr endlist))))
+ (tagbody ,@body)
+ (setq
+ ,@(apply #'append
+ (mapcar (lambda (v)
+ (and (consp (cddr v))
+ (list (first v) (third v))))
+ varlist)))))))
(defun list-length (list)
(let ((l 0))
l))
(defun length (seq)
- (if (stringp seq)
- (string-length seq)
- (list-length seq)))
+ (cond
+ ((stringp seq)
+ (string-length seq))
+ ((arrayp seq)
+ (oget seq "length"))
+ ((listp seq)
+ (list-length seq))))
(defun concat-two (s1 s2)
(concat-two s1 s2))
- (defun mapcar (func list)
- (if (null list)
- '()
- (cons (funcall func (car list))
- (mapcar func (cdr list)))))
+ (defmacro with-collect (&body body)
+ (let ((head (gensym))
+ (tail (gensym)))
+ `(let* ((,head (cons 'sentinel nil))
+ (,tail ,head))
+ (flet ((collect (x)
+ (rplacd ,tail (cons x nil))
+ (setq ,tail (cdr ,tail))
+ x))
+ ,@body)
+ (cdr ,head))))
+
+ (defun map1 (func list)
+ (with-collect
+ (while list
+ (collect (funcall func (car list)))
+ (setq list (cdr list)))))
+
+ (defmacro loop (&body body)
+ `(while t ,@body))
+
+ (defun mapcar (func list &rest lists)
+ (let ((lists (cons list lists)))
+ (with-collect
+ (block loop
+ (loop
+ (let ((elems (map1 #'car lists)))
+ (do ((tail lists (cdr tail)))
+ ((null tail))
+ (when (null (car tail)) (return-from loop))
+ (rplaca tail (cdar tail)))
+ (collect (apply func elems))))))))
(defun identity (x) x)
+ (defun constantly (x)
+ (lambda (&rest args)
+ x))
+
(defun copy-list (x)
(mapcar #'identity x))
+ (defun list* (arg &rest others)
+ (cond ((null others) arg)
+ ((null (cdr others)) (cons arg (car others)))
+ (t (do ((x others (cdr x)))
+ ((null (cddr x)) (rplacd x (cadr x))))
+ (cons arg others))))
+
(defun code-char (x) x)
(defun char-code (x) x)
(defun char= (x y) (= x y))
(defun listp (x)
(or (consp x) (null x)))
+ (defun nthcdr (n list)
+ (while (and (plusp n) list)
+ (setq n (1- n))
+ (setq list (cdr list)))
+ list)
+
(defun nth (n list)
- (cond
- ((null list) list)
- ((zerop n) (car list))
- (t (nth (1- n) (cdr list)))))
+ (car (nthcdr n list)))
(defun last (x)
- (if (consp (cdr x))
- (last (cdr x))
- x))
+ (while (consp (cdr x))
+ (setq x (cdr x)))
+ x)
(defun butlast (x)
(and (consp (cdr x))
(cons (car x) (butlast (cdr x)))))
(defun member (x list)
- (cond
- ((null list)
- nil)
- ((eql x (car list))
- list)
- (t
- (member x (cdr list)))))
+ (while list
+ (when (eql x (car list))
+ (return list))
+ (setq list (cdr list))))
(defun remove (x list)
(cond
(- x #\0)
nil))
+ (defun digit-char (weight)
+ (and (<= 0 weight 9)
+ (char "0123456789" weight)))
+
(defun subseq (seq a &optional b)
(cond
- ((stringp seq)
- (if b
- (slice seq a b)
- (slice seq a)))
- (t
- (error "Unsupported argument."))))
-
- (defun parse-integer (string)
- (let ((value 0)
- (index 0)
- (size (length string)))
- (while (< index size)
- (setq value (+ (* value 10) (digit-char-p (char string index))))
- (incf index))
- value))
+ ((stringp seq)
+ (if b
+ (slice seq a b)
+ (slice seq a)))
+ (t
+ (error "Unsupported argument."))))
+
+ (defun some (function seq)
+ (cond
+ ((stringp seq)
+ (let ((index 0)
+ (size (length seq)))
+ (while (< index size)
+ (when (funcall function (char seq index))
+ (return-from some t))
+ (incf index))
+ nil))
+ ((listp seq)
+ (dolist (x seq nil)
+ (when (funcall function x)
+ (return t))))
+ (t
+ (error "Unknown sequence."))))
(defun every (function seq)
- ;; string
- (let ((ret t)
- (index 0)
- (size (length seq)))
- (while (and ret (< index size))
- (unless (funcall function (char seq index))
- (setq ret nil))
- (incf index))
- ret))
+ (cond
+ ((stringp seq)
+ (let ((index 0)
+ (size (length seq)))
+ (while (< index size)
+ (unless (funcall function (char seq index))
+ (return-from every nil))
+ (incf index))
+ t))
+ ((listp seq)
+ (dolist (x seq t)
+ (unless (funcall function x)
+ (return))))
+ (t
+ (error "Unknown sequence."))))
(defun assoc (x alist)
- (let ((found nil))
- (while (and alist (not found))
- (if (eql x (caar alist))
- (setq found t)
- (setq alist (cdr alist))))
- (car alist)))
+ (while alist
+ (if (eql x (caar alist))
+ (return)
+ (setq alist (cdr alist))))
+ (car alist))
+
+ (defun string (x)
+ (cond ((stringp x) x)
+ ((symbolp x) (symbol-name x))
+ (t (char-to-string x))))
(defun string= (s1 s2)
- (equal s1 s2)))
+ (equal s1 s2))
+
+ (defun fdefinition (x)
+ (cond
+ ((functionp x)
+ x)
+ ((symbolp x)
+ (symbol-function x))
+ (t
+ (error "Invalid function"))))
+
+ (defun disassemble (function)
+ (write-line (lambda-code (fdefinition function)))
+ nil)
+
+ (defun documentation (x type)
+ "Return the documentation of X. TYPE must be the symbol VARIABLE or FUNCTION."
+ (ecase type
+ (function
+ (let ((func (fdefinition x)))
+ (oget func "docstring")))
+ (variable
+ (unless (symbolp x)
+ (error "Wrong argument type! it should be a symbol"))
+ (oget x "vardoc"))))
+
+ (defmacro multiple-value-bind (variables value-from &body body)
+ `(multiple-value-call (lambda (&optional ,@variables &rest ,(gensym))
+ ,@body)
+ ,value-from))
+
+ (defmacro multiple-value-list (value-from)
+ `(multiple-value-call #'list ,value-from))
+
+
+;;; Generalized references (SETF)
+
+ (defvar *setf-expanders* nil)
+
+ (defun get-setf-expansion (place)
+ (if (symbolp place)
+ (let ((value (gensym)))
+ (values nil
+ nil
+ `(,value)
+ `(setq ,place ,value)
+ place))
+ (let ((place (ls-macroexpand-1 place)))
+ (let* ((access-fn (car place))
+ (expander (cdr (assoc access-fn *setf-expanders*))))
+ (when (null expander)
+ (error "Unknown generalized reference."))
+ (apply expander (cdr place))))))
+
+ (defmacro define-setf-expander (access-fn lambda-list &body body)
+ (unless (symbolp access-fn)
+ (error "ACCESS-FN must be a symbol."))
+ `(progn (push (cons ',access-fn (lambda ,lambda-list ,@body))
+ *setf-expanders*)
+ ',access-fn))
+
+ (defmacro setf (&rest pairs)
+ (cond
+ ((null pairs)
+ nil)
+ ((null (cdr pairs))
+ (error "Odd number of arguments to setf."))
+ ((null (cddr pairs))
+ (let ((place (first pairs))
+ (value (second pairs)))
+ (multiple-value-bind (vars vals store-vars writer-form reader-form)
+ (get-setf-expansion place)
+ ;; TODO: Optimize the expansion a little bit to avoid let*
+ ;; or multiple-value-bind when unnecesary.
+ `(let* ,(mapcar #'list vars vals)
+ (multiple-value-bind ,store-vars
+ ,value
+ ,writer-form)))))
+ (t
+ `(progn
+ ,@(do ((pairs pairs (cddr pairs))
+ (result '() (cons `(setf ,(car pairs) ,(cadr pairs)) result)))
+ ((null pairs)
+ (reverse result)))))))
+
+ (define-setf-expander car (x)
+ (let ((cons (gensym))
+ (new-value (gensym)))
+ (values (list cons)
+ (list x)
+ (list new-value)
+ `(progn (rplaca ,cons ,new-value) ,new-value)
+ `(car ,cons))))
+
+ (define-setf-expander cdr (x)
+ (let ((cons (gensym))
+ (new-value (gensym)))
+ (values (list cons)
+ (list x)
+ (list new-value)
+ `(progn (rplacd ,cons ,new-value) ,new-value)
+ `(car ,cons))))
+
+<<<<<<< HEAD
+ (defmacro push (x place)
+ (multiple-value-bind (dummies vals newval setter getter)
+ (get-setf-expansion place)
+ (let ((g (gensym)))
+ `(let* ((,g ,x)
+ ,@(mapcar #'list dummies vals)
+ (,(car newval) (cons ,g ,getter))
+ ,@(cdr newval))
+ ,setter))))
+=======
+ ;; Incorrect typecase, but used in NCONC.
+ (defmacro typecase (x &rest clausules)
+ (let ((value (gensym)))
+ `(let ((,value ,x))
+ (cond
+ ,@(mapcar (lambda (c)
+ (if (eq (car c) t)
+ `((t ,@(rest c)))
+ `((,(ecase (car c)
+ (integer 'integerp)
+ (cons 'consp)
+ (string 'stringp)
+ (atom 'atom)
+ (null 'null))
+ ,value)
+ ,@(or (rest c)
+ (list nil)))))
+ clausules)))))
+
+ ;; The NCONC function is based on the SBCL's one.
+ (defun nconc (&rest lists)
+ (flet ((fail (object)
+ (error "type-error in nconc")))
+ (do ((top lists (cdr top)))
+ ((null top) nil)
+ (let ((top-of-top (car top)))
+ (typecase top-of-top
+ (cons
+ (let* ((result top-of-top)
+ (splice result))
+ (do ((elements (cdr top) (cdr elements)))
+ ((endp elements))
+ (let ((ele (car elements)))
+ (typecase ele
+ (cons (rplacd (last splice) ele)
+ (setf splice ele))
+ (null (rplacd (last splice) nil))
+ (atom (if (cdr elements)
+ (fail ele)
+ (rplacd (last splice) ele))))))
+ (return result)))
+ (null)
+ (atom
+ (if (cdr top)
+ (fail top-of-top)
+ (return top-of-top))))))))
+
+ (defun nreconc (x y)
+ (do ((1st (cdr x) (if (endp 1st) 1st (cdr 1st)))
+ (2nd x 1st) ; 2nd follows first down the list.
+ (3rd y 2nd)) ;3rd follows 2nd down the list.
+ ((atom 2nd) 3rd)
+ (rplacd 2nd 3rd)))
+
+ (defun notany (fn seq)
+ (not (some fn seq)))
+
+>>>>>>> backquote
+
+ ;; Packages
+
+ (defvar *package-list* nil)
+
+ (defun list-all-packages ()
+ *package-list*)
+
+ (defun make-package (name &key use)
+ (let ((package (new))
+ (use (mapcar #'find-package-or-fail use)))
+ (oset package "packageName" name)
+ (oset package "symbols" (new))
+ (oset package "exports" (new))
+ (oset package "use" use)
+ (push package *package-list*)
+ package))
+
+ (defun packagep (x)
+ (and (objectp x) (in "symbols" x)))
+
+ (defun find-package (package-designator)
+ (when (packagep package-designator)
+ (return-from find-package package-designator))
+ (let ((name (string package-designator)))
+ (dolist (package *package-list*)
+ (when (string= (package-name package) name)
+ (return package)))))
+
+ (defun find-package-or-fail (package-designator)
+ (or (find-package package-designator)
+ (error "Package unknown.")))
+
+ (defun package-name (package-designator)
+ (let ((package (find-package-or-fail package-designator)))
+ (oget package "packageName")))
+
+ (defun %package-symbols (package-designator)
+ (let ((package (find-package-or-fail package-designator)))
+ (oget package "symbols")))
+
+ (defun package-use-list (package-designator)
+ (let ((package (find-package-or-fail package-designator)))
+ (oget package "use")))
+
+ (defun %package-external-symbols (package-designator)
+ (let ((package (find-package-or-fail package-designator)))
+ (oget package "exports")))
+
+ (defvar *common-lisp-package*
+ (make-package "CL"))
+
+ (defvar *user-package*
+ (make-package "CL-USER" :use (list *common-lisp-package*)))
+
+ (defvar *keyword-package*
+ (make-package "KEYWORD"))
+
+ (defun keywordp (x)
+ (and (symbolp x) (eq (symbol-package x) *keyword-package*)))
+
+ (defvar *package* *common-lisp-package*)
+
+ (defmacro in-package (package-designator)
+ `(eval-when-compile
+ (setq *package* (find-package-or-fail ,package-designator))))
+
+ ;; This function is used internally to initialize the CL package
+ ;; with the symbols built during bootstrap.
+ (defun %intern-symbol (symbol)
+ (let* ((package
+ (if (in "package" symbol)
+ (find-package-or-fail (oget symbol "package"))
+ *common-lisp-package*))
+ (symbols (%package-symbols package)))
+ (oset symbol "package" package)
+ (when (eq package *keyword-package*)
+ (oset symbol "value" symbol))
+ (oset symbols (symbol-name symbol) symbol)))
+
+ (defun find-symbol (name &optional (package *package*))
+ (let* ((package (find-package-or-fail package))
+ (externals (%package-external-symbols package))
+ (symbols (%package-symbols package)))
+ (cond
+ ((in name externals)
+ (values (oget externals name) :external))
+ ((in name symbols)
+ (values (oget symbols name) :internal))
+ (t
+ (dolist (used (package-use-list package) (values nil nil))
+ (let ((exports (%package-external-symbols used)))
+ (when (in name exports)
+ (return (values (oget exports name) :inherit)))))))))
+
+ (defun intern (name &optional (package *package*))
+ (let ((package (find-package-or-fail package)))
+ (multiple-value-bind (symbol foundp)
+ (find-symbol name package)
+ (if foundp
+ (values symbol foundp)
+ (let ((symbols (%package-symbols package)))
+ (oget symbols name)
+ (let ((symbol (make-symbol name)))
+ (oset symbol "package" package)
+ (when (eq package *keyword-package*)
+ (oset symbol "value" symbol)
+ (export (list symbol) package))
+ (oset symbols name symbol)
+ (values symbol nil)))))))
+
+ (defun symbol-package (symbol)
+ (unless (symbolp symbol)
+ (error "it is not a symbol"))
+ (oget symbol "package"))
+
+ (defun export (symbols &optional (package *package*))
+ (let ((exports (%package-external-symbols package)))
+ (dolist (symb symbols t)
+ (oset exports (symbol-name symb) symb))))
+
+ (defun get-universal-time ()
+ (+ (get-unix-time) 2208988800)))
;;; The compiler offers some primitives and special forms which are
(defun concat-two (s1 s2)
(concatenate 'string s1 s2))
- (defun setcar (cons new)
- (setf (car cons) new))
- (defun setcdr (cons new)
- (setf (cdr cons) new)))
+ (defun aset (array idx value)
+ (setf (aref array idx) value)))
;;; At this point, no matter if Common Lisp or ecmalisp is compiling
;;; from here, this code will compile on both. We define some helper
(defvar *newline* (string (code-char 10)))
(defun concat (&rest strs)
- (!reduce #'concat-two strs ""))
+ (!reduce #'concat-two strs :initial-value ""))
+
+(defmacro concatf (variable &body form)
+ `(setq ,variable (concat ,variable (progn ,@form))))
;;; Concatenate a list of strings, with a separator
(defun join (list &optional (separator ""))
""
(concat (car list) separator (join-trailing (cdr list) separator))))
-;;; Like CONCAT, but prefix each line with four spaces.
-(defun indent (&rest string)
- (let ((input (join string)))
- (let ((output "")
- (index 0)
- (size (length input)))
- (when (plusp size)
- (setq output " "))
- (while (< index size)
- (setq output
- (concat output
- (if (and (char= (char input index) #\newline)
- (< index (1- size))
- (not (char= (char input (1+ index)) #\newline)))
- (concat (string #\newline) " ")
- (subseq input index (1+ index)))))
- (incf index))
- output)))
+(defun mapconcat (func list)
+ (join (mapcar func list)))
+
+(defun vector-to-list (vector)
+ (let ((list nil)
+ (size (length vector)))
+ (dotimes (i size (reverse list))
+ (push (aref vector i) list))))
+
+(defun list-to-vector (list)
+ (let ((v (make-array (length list)))
+ (i 0))
+ (dolist (x list v)
+ (aset v i x)
+ (incf i))))
+
+#+ecmalisp
+(progn
+ (defun values-list (list)
+ (values-array (list-to-vector list)))
+
+ (defun values (&rest args)
+ (values-list args)))
(defun integer-to-string (x)
(cond
(while (not (zerop x))
(push (mod x 10) digits)
(setq x (truncate x 10)))
- (join (mapcar (lambda (d) (string (char "0123456789" d)))
- digits))))))
+ (mapconcat (lambda (x) (string (digit-char x)))
+ digits)))))
+
;;; Printer
#+ecmalisp
(progn
- (defun print-to-string (form)
+ (defun prin1-to-string (form)
(cond
- ((symbolp form) (symbol-name form))
+ ((symbolp form)
+ (multiple-value-bind (symbol foundp)
+ (find-symbol (symbol-name form) *package*)
+ (if (and foundp (eq symbol form))
+ (symbol-name form)
+ (let ((package (symbol-package form))
+ (name (symbol-name form)))
+ (concat (cond
+ ((null package) "#")
+ ((eq package (find-package "KEYWORD")) "")
+ (t (package-name package)))
+ ":" name)))))
((integerp form) (integer-to-string form))
((stringp form) (concat "\"" (escape-string form) "\""))
((functionp form)
- (let ((name (get form "fname")))
+ (let ((name (oget form "fname")))
(if name
(concat "#<FUNCTION " name ">")
(concat "#<FUNCTION>"))))
((listp form)
(concat "("
- (join-trailing (mapcar #'print-to-string (butlast form)) " ")
+ (join-trailing (mapcar #'prin1-to-string (butlast form)) " ")
(let ((last (last form)))
(if (null (cdr last))
- (print-to-string (car last))
- (concat (print-to-string (car last)) " . " (print-to-string (cdr last)))))
- ")"))))
+ (prin1-to-string (car last))
+ (concat (prin1-to-string (car last)) " . " (prin1-to-string (cdr last)))))
+ ")"))
+ ((arrayp form)
+ (concat "#" (prin1-to-string (vector-to-list form))))
+ ((packagep form)
+ (concat "#<PACKAGE " (package-name form) ">"))))
(defun write-line (x)
(write-string x)
(write-string *newline*)
x)
+ (defun warn (string)
+ (write-string "WARNING: ")
+ (write-line string))
+
(defun print (x)
- (write-line (print-to-string x))
+ (write-line (prin1-to-string x))
x))
+
;;;; Reader
;;; The Lisp reader, parse strings and return Lisp objects. The main
(defun %read-char (stream)
(and (< (cdr stream) (length (car stream)))
(prog1 (char (car stream) (cdr stream))
- (setcdr stream (1+ (cdr stream))))))
+ (rplacd stream (1+ (cdr stream))))))
(defun whitespacep (ch)
(or (char= ch #\space) (char= ch #\newline) (char= ch #\tab)))
(ecase (%read-char stream)
(#\'
(list 'function (ls-read stream)))
+ (#\( (list-to-vector (%read-list stream)))
+ (#\: (make-symbol (string-upcase (read-until stream #'terminalp))))
(#\\
(let ((cname
(concat (string (%read-char stream))
(t
(error "Unknown reader form.")))))))
-(defvar *eof* (make-symbol "EOF"))
+;;; Parse a string of the form NAME, PACKAGE:NAME or
+;;; PACKAGE::NAME and return the name. If the string is of the
+;;; form 1) or 3), but the symbol does not exist, it will be created
+;;; and interned in that package.
+(defun read-symbol (string)
+ (let ((size (length string))
+ package name internalp index)
+ (setq index 0)
+ (while (and (< index size)
+ (not (char= (char string index) #\:)))
+ (incf index))
+ (cond
+ ;; No package prefix
+ ((= index size)
+ (setq name string)
+ (setq package *package*)
+ (setq internalp t))
+ (t
+ ;; Package prefix
+ (if (zerop index)
+ (setq package "KEYWORD")
+ (setq package (string-upcase (subseq string 0 index))))
+ (incf index)
+ (when (char= (char string index) #\:)
+ (setq internalp t)
+ (incf index))
+ (setq name (subseq string index))))
+ ;; Canonalize symbol name and package
+ (setq name (string-upcase name))
+ (setq package (find-package package))
+ ;; TODO: PACKAGE:SYMBOL should signal error if SYMBOL is not an
+ ;; external symbol from PACKAGE.
+ (if (or internalp (eq package (find-package "KEYWORD")))
+ (intern name package)
+ (find-symbol name package))))
+
+
+(defun !parse-integer (string junk-allow)
+ (block nil
+ (let ((value 0)
+ (index 0)
+ (size (length string))
+ (sign 1))
+ (when (zerop size) (return (values nil 0)))
+ ;; Optional sign
+ (case (char string 0)
+ (#\+ (incf index))
+ (#\- (setq sign -1)
+ (incf index)))
+ ;; First digit
+ (unless (and (< index size)
+ (setq value (digit-char-p (char string index))))
+ (return (values nil index)))
+ (incf index)
+ ;; Other digits
+ (while (< index size)
+ (let ((digit (digit-char-p (char string index))))
+ (unless digit (return))
+ (setq value (+ (* value 10) digit))
+ (incf index)))
+ (if (or junk-allow
+ (= index size)
+ (char= (char string index) #\space))
+ (values (* sign value) index)
+ (values nil index)))))
+
+#+ecmalisp
+(defun parse-integer (string)
+ (!parse-integer string nil))
+
+(defvar *eof* (gensym))
(defun ls-read (stream)
(skip-whitespaces-and-comments stream)
(let ((ch (%peek-char stream)))
(cond
- ((null ch)
+ ((or (null ch) (char= ch #\)))
*eof*)
((char= ch #\()
(%read-char stream)
(read-sharp stream))
(t
(let ((string (read-until stream #'terminalp)))
- (if (every #'digit-char-p string)
- (parse-integer string)
- (intern (string-upcase string))))))))
+ (or (values (!parse-integer string nil))
+ (read-symbol string)))))))
(defun ls-read-from-string (string)
(ls-read (make-string-stream string)))
;;; too. The respective real functions are defined in the target (see
;;; the beginning of this file) as well as some primitive functions.
-(defvar *compilation-unit-checks* '())
+(defun code (&rest args)
+ (mapconcat (lambda (arg)
+ (cond
+ ((null arg) "")
+ ((integerp arg) (integer-to-string arg))
+ ((stringp arg) arg)
+ (t (error "Unknown argument."))))
+ args))
+
+;;; Wrap X with a Javascript code to convert the result from
+;;; Javascript generalized booleans to T or NIL.
+(defun js!bool (x)
+ (code "(" x "?" (ls-compile t) ": " (ls-compile nil) ")"))
+
+;;; Concatenate the arguments and wrap them with a self-calling
+;;; Javascript anonymous function. It is used to make some Javascript
+;;; statements valid expressions and provide a private scope as well.
+;;; It could be defined as function, but we could do some
+;;; preprocessing in the future.
+(defmacro js!selfcall (&body body)
+ `(code "(function(){" *newline* (indent ,@body) "})()"))
+
+;;; Like CODE, but prefix each line with four spaces. Two versions
+;;; of this function are available, because the Ecmalisp version is
+;;; very slow and bootstraping was annoying.
-(defun make-binding (name type js declared)
- (list name type js declared))
+#+ecmalisp
+(defun indent (&rest string)
+ (let ((input (apply #'code string)))
+ (let ((output "")
+ (index 0)
+ (size (length input)))
+ (when (plusp (length input)) (concatf output " "))
+ (while (< index size)
+ (let ((str
+ (if (and (char= (char input index) #\newline)
+ (< index (1- size))
+ (not (char= (char input (1+ index)) #\newline)))
+ (concat (string #\newline) " ")
+ (string (char input index)))))
+ (concatf output str))
+ (incf index))
+ output)))
+
+#+common-lisp
+(defun indent (&rest string)
+ (with-output-to-string (*standard-output*)
+ (with-input-from-string (input (apply #'code string))
+ (loop
+ for line = (read-line input nil)
+ while line
+ do (write-string " ")
+ do (write-line line)))))
+
+
+;;; A Form can return a multiple values object calling VALUES, like
+;;; values(arg1, arg2, ...). It will work in any context, as well as
+;;; returning an individual object. However, if the special variable
+;;; `*multiple-value-p*' is NIL, is granted that only the primary
+;;; value will be used, so we can optimize to avoid the VALUES
+;;; function call.
+(defvar *multiple-value-p* nil)
+
+(defun make-binding (name type value &optional declarations)
+ (list name type value declarations))
(defun binding-name (b) (first b))
(defun binding-type (b) (second b))
-(defun binding-translation (b) (third b))
-(defun binding-declared (b)
- (and b (fourth b)))
-(defun mark-binding-as-declared (b)
- (setcar (cdddr b) t))
+(defun binding-value (b) (third b))
+(defun binding-declarations (b) (fourth b))
+
+(defun set-binding-value (b value)
+ (rplaca (cddr b) value))
+
+(defun set-binding-declarations (b value)
+ (rplaca (cdddr b) value))
+
+(defun push-binding-declaration (decl b)
+ (set-binding-declarations b (cons decl (binding-declarations b))))
+
(defun make-lexenv ()
- (list nil nil nil))
+ (list nil nil nil nil))
(defun copy-lexenv (lexenv)
(copy-list lexenv))
(defun push-to-lexenv (binding lexenv namespace)
(ecase namespace
- (variable
- (setcar lexenv (cons binding (car lexenv))))
- (function
- (setcar (cdr lexenv) (cons binding (cadr lexenv))))
- (block
- (setcar (cddr lexenv) (cons binding (caddr lexenv))))))
-
-(defun extend-lexenv (binding lexenv namespace)
+ (variable (rplaca lexenv (cons binding (car lexenv))))
+ (function (rplaca (cdr lexenv) (cons binding (cadr lexenv))))
+ (block (rplaca (cddr lexenv) (cons binding (caddr lexenv))))
+ (gotag (rplaca (cdddr lexenv) (cons binding (cadddr lexenv))))))
+
+(defun extend-lexenv (bindings lexenv namespace)
(let ((env (copy-lexenv lexenv)))
- (push-to-lexenv binding env namespace)
- env))
+ (dolist (binding (reverse bindings) env)
+ (push-to-lexenv binding env namespace))))
(defun lookup-in-lexenv (name lexenv namespace)
(assoc name (ecase namespace
(variable (first lexenv))
(function (second lexenv))
- (block (third lexenv)))))
+ (block (third lexenv))
+ (gotag (fourth lexenv)))))
(defvar *environment* (make-lexenv))
-(defun clear-undeclared-global-bindings ()
- (let ((variables (first *environment*))
- (functions (second *environment*)))
- (setq *environment* (list variables functions (third *environment*)))))
-
-
(defvar *variable-counter* 0)
(defun gvarname (symbol)
- (concat "v" (integer-to-string (incf *variable-counter*))))
-
-(defun lookup-variable (symbol env)
- (or (lookup-in-lexenv symbol env 'variable)
- (lookup-in-lexenv symbol *environment* 'variable)
- (let ((name (symbol-name symbol))
- (binding (make-binding symbol 'variable (gvarname symbol) nil)))
- (push-to-lexenv binding *environment* 'variable)
- (push (lambda ()
- (unless (lookup-in-lexenv symbol *environment* 'variable)
- (error (concat "Undefined variable `" name "'"))))
- *compilation-unit-checks*)
- binding)))
-
-(defun lookup-variable-translation (symbol env)
- (binding-translation (lookup-variable symbol env)))
-
-(defun extend-local-env (args env)
- (let ((new (copy-lexenv env)))
+ (code "v" (incf *variable-counter*)))
+
+(defun translate-variable (symbol)
+ (binding-value (lookup-in-lexenv symbol *environment* 'variable)))
+
+(defun extend-local-env (args)
+ (let ((new (copy-lexenv *environment*)))
(dolist (symbol args new)
- (let ((b (make-binding symbol 'variable (gvarname symbol) t)))
+ (let ((b (make-binding symbol 'variable (gvarname symbol))))
(push-to-lexenv b new 'variable)))))
-(defvar *function-counter* 0)
-(defun lookup-function (symbol env)
- (or (lookup-in-lexenv symbol env 'function)
- (lookup-in-lexenv symbol *environment* 'function)
- (let ((name (symbol-name symbol))
- (binding
- (make-binding symbol
- 'function
- (concat "f" (integer-to-string (incf *function-counter*)))
- nil)))
- (push-to-lexenv binding *environment* 'function)
- (push (lambda ()
- (unless (binding-declared (lookup-in-lexenv symbol *environment* 'function))
- (error (concat "Undefined function `" name "'"))))
- *compilation-unit-checks*)
- binding)))
-
-(defun lookup-function-translation (symbol env)
- (binding-translation (lookup-function symbol env)))
-
+;;; Toplevel compilations
(defvar *toplevel-compilations* nil)
-(defun %compile-defvar (name)
- (let ((b (lookup-variable name *environment*)))
- (mark-binding-as-declared b)
- (push (concat "var " (binding-translation b)) *toplevel-compilations*)))
+(defun toplevel-compilation (string)
+ (push string *toplevel-compilations*))
-(defun %compile-defun (name)
- (let ((b (lookup-function name *environment*)))
- (mark-binding-as-declared b)
- (push (concat "var " (binding-translation b)) *toplevel-compilations*)))
+(defun null-or-empty-p (x)
+ (zerop (length x)))
+
+(defun get-toplevel-compilations ()
+ (reverse (remove-if #'null-or-empty-p *toplevel-compilations*)))
(defun %compile-defmacro (name lambda)
- (push-to-lexenv (make-binding name 'macro lambda t) *environment* 'function))
+ (toplevel-compilation (ls-compile `',name))
+ (push-to-lexenv (make-binding name 'macro lambda) *environment* 'function)
+ name)
+
+(defun global-binding (name type namespace)
+ (or (lookup-in-lexenv name *environment* namespace)
+ (let ((b (make-binding name type nil)))
+ (push-to-lexenv b *environment* namespace)
+ b)))
+
+(defun claimp (symbol namespace claim)
+ (let ((b (lookup-in-lexenv symbol *environment* namespace)))
+ (and b (member claim (binding-declarations b)))))
+
+(defun !proclaim (decl)
+ (case (car decl)
+ (special
+ (dolist (name (cdr decl))
+ (let ((b (global-binding name 'variable 'variable)))
+ (push-binding-declaration 'special b))))
+ (notinline
+ (dolist (name (cdr decl))
+ (let ((b (global-binding name 'function 'function)))
+ (push-binding-declaration 'notinline b))))
+ (constant
+ (dolist (name (cdr decl))
+ (let ((b (global-binding name 'variable 'variable)))
+ (push-binding-declaration 'constant b))))))
-(defvar *compilations* nil)
+#+ecmalisp
+(fset 'proclaim #'!proclaim)
+
+;;; Special forms
-(defun ls-compile-block (sexps env)
- (join-trailing
- (remove-if (lambda (x)
- (or (null x)
- (and (stringp x)
- (zerop (length x)))))
- (mapcar (lambda (x) (ls-compile x env)) sexps))
- (concat ";" *newline*)))
+(defvar *compilations* nil)
(defmacro define-compilation (name args &body body)
;; 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))
+ ;; variable *ENVIRONMENT*.
+ `(push (list ',name (lambda ,args (block ,name ,@body)))
*compilations*))
(define-compilation if (condition true false)
- (concat "("
- (ls-compile condition env) " !== " (ls-compile nil)
- " ? "
- (ls-compile true env)
- " : "
- (ls-compile false env)
- ")"))
+ (code "(" (ls-compile condition) " !== " (ls-compile nil)
+ " ? " (ls-compile true *multiple-value-p*)
+ " : " (ls-compile false *multiple-value-p*)
+ ")"))
-
-(defvar *lambda-list-keywords* '(&optional &rest))
+(defvar *ll-keywords* '(&optional &rest &key))
(defun list-until-keyword (list)
- (if (or (null list) (member (car list) *lambda-list-keywords*))
+ (if (or (null list) (member (car list) *ll-keywords*))
nil
(cons (car list) (list-until-keyword (cdr list)))))
-(defun lambda-list-required-arguments (lambda-list)
- (list-until-keyword lambda-list))
+(defun ll-section (keyword ll)
+ (list-until-keyword (cdr (member keyword ll))))
+
+(defun ll-required-arguments (ll)
+ (list-until-keyword ll))
-(defun lambda-list-optional-arguments-with-default (lambda-list)
- (mapcar #'ensure-list (list-until-keyword (cdr (member '&optional lambda-list)))))
+(defun ll-optional-arguments-canonical (ll)
+ (mapcar #'ensure-list (ll-section '&optional ll)))
-(defun lambda-list-optional-arguments (lambda-list)
- (mapcar #'car (lambda-list-optional-arguments-with-default lambda-list)))
+(defun ll-optional-arguments (ll)
+ (mapcar #'car (ll-optional-arguments-canonical ll)))
-(defun lambda-list-rest-argument (lambda-list)
- (let ((rest (list-until-keyword (cdr (member '&rest lambda-list)))))
+(defun ll-rest-argument (ll)
+ (let ((rest (ll-section '&rest ll)))
(when (cdr rest)
(error "Bad lambda-list"))
(car rest)))
-(define-compilation lambda (lambda-list &rest body)
- (let ((required-arguments (lambda-list-required-arguments lambda-list))
- (optional-arguments (lambda-list-optional-arguments lambda-list))
- (rest-argument (lambda-list-rest-argument lambda-list)))
+(defun ll-keyword-arguments-canonical (ll)
+ (flet ((canonicalize (keyarg)
+ ;; Build a canonical keyword argument descriptor, filling
+ ;; the optional fields. The result is a list of the form
+ ;; ((keyword-name var) init-form).
+ (let ((arg (ensure-list keyarg)))
+ (cons (if (listp (car arg))
+ (car arg)
+ (list (intern (symbol-name (car arg)) "KEYWORD") (car arg)))
+ (cdr arg)))))
+ (mapcar #'canonicalize (ll-section '&key ll))))
+
+(defun ll-keyword-arguments (ll)
+ (mapcar (lambda (keyarg) (second (first keyarg)))
+ (ll-keyword-arguments-canonical ll)))
+
+(defun ll-svars (lambda-list)
+ (let ((args
+ (append
+ (ll-keyword-arguments-canonical lambda-list)
+ (ll-optional-arguments-canonical lambda-list))))
+ (remove nil (mapcar #'third args))))
+
+(defun lambda-docstring-wrapper (docstring &rest strs)
+ (if docstring
+ (js!selfcall
+ "var func = " (join strs) ";" *newline*
+ "func.docstring = '" docstring "';" *newline*
+ "return func;" *newline*)
+ (apply #'code strs)))
+
+(defun lambda-check-argument-count
+ (n-required-arguments n-optional-arguments rest-p)
+ ;; Note: Remember that we assume that the number of arguments of a
+ ;; call is at least 1 (the values argument).
+ (let ((min (1+ n-required-arguments))
+ (max (if rest-p 'n/a (+ 1 n-required-arguments n-optional-arguments))))
+ (block nil
+ ;; Special case: a positive exact number of arguments.
+ (when (and (< 1 min) (eql min max))
+ (return (code "checkArgs(arguments, " min ");" *newline*)))
+ ;; General case:
+ (code
+ (when (< 1 min)
+ (code "checkArgsAtLeast(arguments, " min ");" *newline*))
+ (when (numberp max)
+ (code "checkArgsAtMost(arguments, " max ");" *newline*))))))
+
+(defun compile-lambda-optional (ll)
+ (let* ((optional-arguments (ll-optional-arguments-canonical ll))
+ (n-required-arguments (length (ll-required-arguments ll)))
+ (n-optional-arguments (length optional-arguments)))
+ (when optional-arguments
+ (code (mapconcat (lambda (arg)
+ (code "var " (translate-variable (first arg)) "; " *newline*
+ (when (third arg)
+ (code "var " (translate-variable (third arg))
+ " = " (ls-compile t)
+ "; " *newline*))))
+ optional-arguments)
+ "switch(arguments.length-1){" *newline*
+ (let ((cases nil)
+ (idx 0))
+ (progn
+ (while (< idx n-optional-arguments)
+ (let ((arg (nth idx optional-arguments)))
+ (push (code "case " (+ idx n-required-arguments) ":" *newline*
+ (indent (translate-variable (car arg))
+ "="
+ (ls-compile (cadr arg)) ";" *newline*)
+ (when (third arg)
+ (indent (translate-variable (third arg))
+ "="
+ (ls-compile nil)
+ ";" *newline*)))
+ cases)
+ (incf idx)))
+ (push (code "default: break;" *newline*) cases)
+ (join (reverse cases))))
+ "}" *newline*))))
+
+(defun compile-lambda-rest (ll)
+ (let ((n-required-arguments (length (ll-required-arguments ll)))
+ (n-optional-arguments (length (ll-optional-arguments ll)))
+ (rest-argument (ll-rest-argument ll)))
+ (when rest-argument
+ (let ((js!rest (translate-variable rest-argument)))
+ (code "var " js!rest "= " (ls-compile nil) ";" *newline*
+ "for (var i = arguments.length-1; i>="
+ (+ 1 n-required-arguments n-optional-arguments)
+ "; i--)" *newline*
+ (indent js!rest " = {car: arguments[i], cdr: ") js!rest "};"
+ *newline*)))))
+
+(defun compile-lambda-parse-keywords (ll)
+ (let ((n-required-arguments
+ (length (ll-required-arguments ll)))
+ (n-optional-arguments
+ (length (ll-optional-arguments ll)))
+ (keyword-arguments
+ (ll-keyword-arguments-canonical ll)))
+ (code
+ ;; Declare variables
+ (mapconcat (lambda (arg)
+ (let ((var (second (car arg))))
+ (code "var " (translate-variable var) "; " *newline*
+ (when (third arg)
+ (code "var " (translate-variable (third arg))
+ " = " (ls-compile nil)
+ ";" *newline*)))))
+ keyword-arguments)
+ ;; Parse keywords
+ (flet ((parse-keyword (keyarg)
+ ;; ((keyword-name var) init-form)
+ (code "for (i=" (+ 1 n-required-arguments n-optional-arguments)
+ "; i<arguments.length; i+=2){" *newline*
+ (indent
+ "if (arguments[i] === " (ls-compile (caar keyarg)) "){" *newline*
+ (indent (translate-variable (cadr (car keyarg)))
+ " = arguments[i+1];"
+ *newline*
+ (let ((svar (third keyarg)))
+ (when svar
+ (code (translate-variable svar) " = " (ls-compile t) ";" *newline*)))
+ "break;" *newline*)
+ "}" *newline*)
+ "}" *newline*
+ ;; Default value
+ "if (i == arguments.length){" *newline*
+ (indent (translate-variable (cadr (car keyarg))) " = " (ls-compile (cadr keyarg)) ";" *newline*)
+ "}" *newline*)))
+ (when keyword-arguments
+ (code "var i;" *newline*
+ (mapconcat #'parse-keyword keyword-arguments))))
+ ;; Check for unknown keywords
+ (when keyword-arguments
+ (code "for (i=" (+ 1 n-required-arguments n-optional-arguments)
+ "; i<arguments.length; i+=2){" *newline*
+ (indent "if ("
+ (join (mapcar (lambda (x)
+ (concat "arguments[i] !== " (ls-compile (caar x))))
+ keyword-arguments)
+ " && ")
+ ")" *newline*
+ (indent
+ "throw 'Unknown keyword argument ' + arguments[i].name;" *newline*))
+ "}" *newline*)))))
+
+(defun compile-lambda (ll body)
+ (let ((required-arguments (ll-required-arguments ll))
+ (optional-arguments (ll-optional-arguments ll))
+ (keyword-arguments (ll-keyword-arguments ll))
+ (rest-argument (ll-rest-argument ll))
+ documentation)
+ ;; Get the documentation string for the lambda function
+ (when (and (stringp (car body))
+ (not (null (cdr body))))
+ (setq documentation (car body))
+ (setq body (cdr body)))
(let ((n-required-arguments (length required-arguments))
(n-optional-arguments (length optional-arguments))
- (new-env (extend-local-env
- (append (ensure-list rest-argument)
- required-arguments
- optional-arguments)
- env)))
- (concat "(function ("
- (join (mapcar (lambda (x)
- (lookup-variable-translation x new-env))
- (append required-arguments optional-arguments))
- ",")
- "){" *newline*
- ;; Check number of arguments
- (indent
- (if required-arguments
- (concat "if (arguments.length < " (integer-to-string n-required-arguments)
- ") throw 'too few arguments';" *newline*)
- "")
- (if (not rest-argument)
- (concat "if (arguments.length > "
- (integer-to-string (+ n-required-arguments n-optional-arguments))
- ") throw 'too many arguments';" *newline*)
- "")
- ;; Optional arguments
- (if optional-arguments
- (concat "switch(arguments.length){" *newline*
- (let ((optional-and-defaults
- (lambda-list-optional-arguments-with-default lambda-list))
- (cases nil)
- (idx 0))
- (progn
- (while (< idx n-optional-arguments)
- (let ((arg (nth idx optional-and-defaults)))
- (push (concat "case "
- (integer-to-string (+ idx n-required-arguments)) ":" *newline*
- (lookup-variable-translation (car arg) new-env)
- "="
- (ls-compile (cadr arg) new-env)
- ";" *newline*)
- cases)
- (incf idx)))
- (push (concat "default: break;" *newline*) cases)
- (join (reverse cases))))
- "}" *newline*)
- "")
- ;; &rest/&body argument
- (if rest-argument
- (let ((js!rest (lookup-variable-translation rest-argument new-env)))
- (concat "var " js!rest "= " (ls-compile nil) ";" *newline*
- "for (var i = arguments.length-1; i>="
- (integer-to-string (+ n-required-arguments n-optional-arguments))
- "; i--)" *newline*
- (indent js!rest " = "
- "{car: arguments[i], cdr: ") js!rest "};"
- *newline*))
- "")
- ;; Body
- (concat (ls-compile-block (butlast body) new-env)
- "return " (ls-compile (car (last body)) new-env) ";")) *newline*
- "})"))))
-
-(define-compilation fsetq (var val)
- (concat (lookup-function-translation var env)
- " = "
- (ls-compile val env)))
-
-(define-compilation setq (var val)
- (concat (lookup-variable-translation var env)
- " = "
- (ls-compile val env)))
+ (*environment* (extend-local-env
+ (append (ensure-list rest-argument)
+ required-arguments
+ optional-arguments
+ keyword-arguments
+ (ll-svars ll)))))
+ (lambda-docstring-wrapper
+ documentation
+ "(function ("
+ (join (cons "values"
+ (mapcar #'translate-variable
+ (append required-arguments optional-arguments)))
+ ",")
+ "){" *newline*
+ (indent
+ ;; Check number of arguments
+ (lambda-check-argument-count n-required-arguments
+ n-optional-arguments
+ (or rest-argument keyword-arguments))
+ (compile-lambda-optional ll)
+ (compile-lambda-rest ll)
+ (compile-lambda-parse-keywords ll)
+ (let ((*multiple-value-p* t))
+ (ls-compile-block body t)))
+ "})"))))
+
+
+
+(defun setq-pair (var val)
+ (let ((b (lookup-in-lexenv var *environment* 'variable)))
+ (if (and (eq (binding-type b) 'variable)
+ (not (member 'special (binding-declarations b)))
+ (not (member 'constant (binding-declarations b))))
+ (code (binding-value b) " = " (ls-compile val))
+ (ls-compile `(set ',var ,val)))))
+
+(define-compilation setq (&rest pairs)
+ (let ((result ""))
+ (while t
+ (cond
+ ((null pairs) (return))
+ ((null (cdr pairs))
+ (error "Odd paris in SETQ"))
+ (t
+ (concatf result
+ (concat (setq-pair (car pairs) (cadr pairs))
+ (if (null (cddr pairs)) "" ", ")))
+ (setq pairs (cddr pairs)))))
+ (code "(" result ")")))
+
+;;; FFI Variable accessors
+(define-compilation js-vref (var)
+ var)
+
+(define-compilation js-vset (var val)
+ (code "(" var " = " (ls-compile val) ")"))
+
;;; Literals
(defun escape-string (string)
(incf index))
output))
-(defun literal->js (sexp)
- (cond
- ((integerp sexp) (integer-to-string sexp))
- ((stringp sexp) (concat "\"" (escape-string sexp) "\""))
- ((symbolp sexp) (ls-compile `(intern ,(escape-string (symbol-name sexp))) *environment*))
- ((consp sexp) (concat "{car: "
- (literal->js (car sexp))
- ", cdr: "
- (literal->js (cdr sexp)) "}"))))
+(defvar *literal-symbols* nil)
(defvar *literal-counter* 0)
-(defun literal (form)
- (let ((var (concat "l" (integer-to-string (incf *literal-counter*)))))
- (push (concat "var " var " = " (literal->js form)) *toplevel-compilations*)
- var))
+
+(defun genlit ()
+ (code "l" (incf *literal-counter*)))
+
+(defun literal (sexp &optional recursive)
+ (cond
+ ((integerp sexp) (integer-to-string sexp))
+ ((stringp sexp) (code "\"" (escape-string sexp) "\""))
+ ((symbolp sexp)
+ (or (cdr (assoc sexp *literal-symbols*))
+ (let ((v (genlit))
+ (s #+common-lisp
+ (let ((package (symbol-package sexp)))
+ (if (eq package (find-package "KEYWORD"))
+ (code "{name: \"" (escape-string (symbol-name sexp))
+ "\", 'package': '" (package-name package) "'}")
+ (code "{name: \"" (escape-string (symbol-name sexp)) "\"}")))
+ #+ecmalisp
+ (let ((package (symbol-package sexp)))
+ (if (null package)
+ (code "{name: \"" (escape-string (symbol-name sexp)) "\"}")
+ (ls-compile `(intern ,(symbol-name sexp) ,(package-name package)))))))
+ (push (cons sexp v) *literal-symbols*)
+ (toplevel-compilation (code "var " v " = " s))
+ v)))
+ ((consp sexp)
+ (let* ((head (butlast sexp))
+ (tail (last sexp))
+ (c (code "QIList("
+ (join-trailing (mapcar (lambda (x) (literal x t)) head) ",")
+ (literal (car tail) t)
+ ","
+ (literal (cdr tail) t)
+ ")")))
+ (if recursive
+ c
+ (let ((v (genlit)))
+ (toplevel-compilation (code "var " v " = " c))
+ v))))
+ ((arrayp sexp)
+ (let ((elements (vector-to-list sexp)))
+ (let ((c (concat "[" (join (mapcar #'literal elements) ", ") "]")))
+ (if recursive
+ c
+ (let ((v (genlit)))
+ (toplevel-compilation (code "var " v " = " c))
+ v)))))))
(define-compilation quote (sexp)
(literal sexp))
-(define-compilation while (pred &rest body)
- (concat "(function(){" *newline*
- (indent "while("
- (ls-compile pred env)
- " !== "
- (ls-compile nil) "){" *newline*
- (indent (ls-compile-block body env)))
- "}})()"))
+(define-compilation %while (pred &rest body)
+ (js!selfcall
+ "while(" (ls-compile pred) " !== " (ls-compile nil) "){" *newline*
+ (indent (ls-compile-block body))
+ "}"
+ "return " (ls-compile nil) ";" *newline*))
(define-compilation function (x)
(cond
((and (listp x) (eq (car x) 'lambda))
- (ls-compile x env))
+ (compile-lambda (cadr x) (cddr x)))
((symbolp x)
- (lookup-function-translation x env))))
-
+ (let ((b (lookup-in-lexenv x *environment* 'function)))
+ (if b
+ (binding-value b)
+ (ls-compile `(symbol-function ',x)))))))
+
+
+(defun make-function-binding (fname)
+ (make-binding fname 'function (gvarname fname)))
+
+(defun compile-function-definition (list)
+ (compile-lambda (car list) (cdr list)))
+
+(defun translate-function (name)
+ (let ((b (lookup-in-lexenv name *environment* 'function)))
+ (binding-value b)))
+
+(define-compilation flet (definitions &rest body)
+ (let* ((fnames (mapcar #'car definitions))
+ (fbody (mapcar #'cdr definitions))
+ (cfuncs (mapcar #'compile-function-definition fbody))
+ (*environment*
+ (extend-lexenv (mapcar #'make-function-binding fnames)
+ *environment*
+ 'function)))
+ (code "(function("
+ (join (mapcar #'translate-function fnames) ",")
+ "){" *newline*
+ (let ((body (ls-compile-block body t)))
+ (indent body))
+ "})(" (join cfuncs ",") ")")))
+
+(define-compilation labels (definitions &rest body)
+ (let* ((fnames (mapcar #'car definitions))
+ (*environment*
+ (extend-lexenv (mapcar #'make-function-binding fnames)
+ *environment*
+ 'function)))
+ (js!selfcall
+ (mapconcat (lambda (func)
+ (code "var " (translate-function (car func))
+ " = " (compile-lambda (cadr func) (cddr func))
+ ";" *newline*))
+ definitions)
+ (ls-compile-block body t))))
+
+
+(defvar *compiling-file* nil)
(define-compilation eval-when-compile (&rest body)
- (eval (cons 'progn body))
- "")
+ (if *compiling-file*
+ (progn
+ (eval (cons 'progn body))
+ nil)
+ (ls-compile `(progn ,@body))))
(defmacro define-transformation (name args form)
`(define-compilation ,name ,args
- (ls-compile ,form env)))
+ (ls-compile ,form)))
(define-compilation progn (&rest body)
- (concat "(function(){" *newline*
- (indent (ls-compile-block (butlast body) env)
- "return " (ls-compile (car (last body)) env) ";" *newline*)
- "})()"))
+ (if (null (cdr body))
+ (ls-compile (car body) *multiple-value-p*)
+ (js!selfcall (ls-compile-block body t))))
+
+(defun special-variable-p (x)
+ (and (claimp x 'variable 'special) t))
+
+;;; Wrap CODE to restore the symbol values of the dynamic
+;;; bindings. BINDINGS is a list of pairs of the form
+;;; (SYMBOL . PLACE), where PLACE is a Javascript variable
+;;; name to initialize the symbol value and where to stored
+;;; the old value.
+(defun let-binding-wrapper (bindings body)
+ (when (null bindings)
+ (return-from let-binding-wrapper body))
+ (code
+ "try {" *newline*
+ (indent "var tmp;" *newline*
+ (mapconcat
+ (lambda (b)
+ (let ((s (ls-compile `(quote ,(car b)))))
+ (code "tmp = " s ".value;" *newline*
+ s ".value = " (cdr b) ";" *newline*
+ (cdr b) " = tmp;" *newline*)))
+ bindings)
+ body *newline*)
+ "}" *newline*
+ "finally {" *newline*
+ (indent
+ (mapconcat (lambda (b)
+ (let ((s (ls-compile `(quote ,(car b)))))
+ (code s ".value" " = " (cdr b) ";" *newline*)))
+ bindings))
+ "}" *newline*))
(define-compilation let (bindings &rest body)
- (let ((bindings (mapcar #'ensure-list bindings)))
- (let ((variables (mapcar #'first bindings))
- (values (mapcar #'second bindings)))
- (let ((new-env (extend-local-env variables env)))
- (concat "(function("
- (join (mapcar (lambda (x)
- (lookup-variable-translation x new-env))
- variables)
- ",")
- "){" *newline*
- (indent (ls-compile-block (butlast body) new-env)
- "return " (ls-compile (car (last body)) new-env)
- ";" *newline*)
- "})(" (join (mapcar (lambda (x) (ls-compile x env))
- values)
- ",")
- ")")))))
+ (let* ((bindings (mapcar #'ensure-list bindings))
+ (variables (mapcar #'first bindings))
+ (cvalues (mapcar #'ls-compile (mapcar #'second bindings)))
+ (*environment* (extend-local-env (remove-if #'special-variable-p variables)))
+ (dynamic-bindings))
+ (code "(function("
+ (join (mapcar (lambda (x)
+ (if (special-variable-p x)
+ (let ((v (gvarname x)))
+ (push (cons x v) dynamic-bindings)
+ v)
+ (translate-variable x)))
+ variables)
+ ",")
+ "){" *newline*
+ (let ((body (ls-compile-block body t)))
+ (indent (let-binding-wrapper dynamic-bindings body)))
+ "})(" (join cvalues ",") ")")))
+
+
+;;; Return the code to initialize BINDING, and push it extending the
+;;; current lexical environment if the variable is not special.
+(defun let*-initialize-value (binding)
+ (let ((var (first binding))
+ (value (second binding)))
+ (if (special-variable-p var)
+ (code (ls-compile `(setq ,var ,value)) ";" *newline*)
+ (let* ((v (gvarname var))
+ (b (make-binding var 'variable v)))
+ (prog1 (code "var " v " = " (ls-compile value) ";" *newline*)
+ (push-to-lexenv b *environment* 'variable))))))
+
+;;; Wrap BODY to restore the symbol values of SYMBOLS after body. It
+;;; DOES NOT generate code to initialize the value of the symbols,
+;;; unlike let-binding-wrapper.
+(defun let*-binding-wrapper (symbols body)
+ (when (null symbols)
+ (return-from let*-binding-wrapper body))
+ (let ((store (mapcar (lambda (s) (cons s (gvarname s)))
+ (remove-if-not #'special-variable-p symbols))))
+ (code
+ "try {" *newline*
+ (indent
+ (mapconcat (lambda (b)
+ (let ((s (ls-compile `(quote ,(car b)))))
+ (code "var " (cdr b) " = " s ".value;" *newline*)))
+ store)
+ body)
+ "}" *newline*
+ "finally {" *newline*
+ (indent
+ (mapconcat (lambda (b)
+ (let ((s (ls-compile `(quote ,(car b)))))
+ (code s ".value" " = " (cdr b) ";" *newline*)))
+ store))
+ "}" *newline*)))
+
+(define-compilation let* (bindings &rest body)
+ (let ((bindings (mapcar #'ensure-list bindings))
+ (*environment* (copy-lexenv *environment*)))
+ (js!selfcall
+ (let ((specials (remove-if-not #'special-variable-p (mapcar #'first bindings)))
+ (body (concat (mapconcat #'let*-initialize-value bindings)
+ (ls-compile-block body t))))
+ (let*-binding-wrapper specials body)))))
(defvar *block-counter* 0)
(define-compilation block (name &rest body)
- (let ((tr (integer-to-string (incf *block-counter*))))
- (let ((b (make-binding name 'block tr t)))
- (concat "(function(){" *newline*
- (indent "try {" *newline*
- (indent "return " (ls-compile `(progn ,@body)
- (extend-lexenv b env 'block))) ";" *newline*
- "}" *newline*
- "catch (cf){" *newline*
- " if (cf.type == 'block' && cf.id == " tr ")" *newline*
- " return cf.value;" *newline*
- " else" *newline*
- " throw cf;" *newline*
- "}" *newline*)
- "})()" *newline*))))
+ (let* ((tr (incf *block-counter*))
+ (b (make-binding name 'block tr)))
+ (when *multiple-value-p*
+ (push-binding-declaration 'multiple-value b))
+ (let* ((*environment* (extend-lexenv (list b) *environment* 'block))
+ (cbody (ls-compile-block body t)))
+ (if (member 'used (binding-declarations b))
+ (js!selfcall
+ "try {" *newline*
+ (indent cbody)
+ "}" *newline*
+ "catch (cf){" *newline*
+ " if (cf.type == 'block' && cf.id == " tr ")" *newline*
+ (if *multiple-value-p*
+ " return values.apply(this, forcemv(cf.values));"
+ " return cf.values;")
+ *newline*
+ " else" *newline*
+ " throw cf;" *newline*
+ "}" *newline*)
+ (js!selfcall cbody)))))
(define-compilation return-from (name &optional value)
- (let ((b (lookup-in-lexenv name env 'block)))
- (if b
- (concat "(function(){ throw ({"
- "type: 'block', "
- "id: " (binding-translation b) ", "
- "value: " (ls-compile value env) ", "
- "message: 'Return from unknown block " (symbol-name name) ".'"
- "})})()")
- (error (concat "Unknown block `" (symbol-name name) "'.")))))
-
-;;; A little backquote implementation without optimizations of any
-;;; kind for ecmalisp.
-(defun backquote-expand-1 (form)
- (cond
- ((symbolp form)
- (list 'quote form))
- ((atom form)
- form)
- ((eq (car form) 'unquote)
- (car form))
- ((eq (car form) 'backquote)
- (backquote-expand-1 (backquote-expand-1 (cadr form))))
- (t
- (cons 'append
- (mapcar (lambda (s)
- (cond
- ((and (listp s) (eq (car s) 'unquote))
- (list 'list (cadr s)))
- ((and (listp s) (eq (car s) 'unquote-splicing))
- (cadr s))
- (t
- (list 'list (backquote-expand-1 s)))))
- form)))))
-
-(defun backquote-expand (form)
- (if (and (listp form) (eq (car form) 'backquote))
- (backquote-expand-1 (cadr form))
- form))
-
-(defmacro backquote (form)
- (backquote-expand-1 form))
+ (let* ((b (lookup-in-lexenv name *environment* 'block))
+ (multiple-value-p (member 'multiple-value (binding-declarations b))))
+ (when (null b)
+ (error (concat "Unknown block `" (symbol-name name) "'.")))
+ (push-binding-declaration 'used b)
+ (js!selfcall
+ (when multiple-value-p (code "var values = mv;" *newline*))
+ "throw ({"
+ "type: 'block', "
+ "id: " (binding-value b) ", "
+ "values: " (ls-compile value multiple-value-p) ", "
+ "message: 'Return from unknown block " (symbol-name name) ".'"
+ "})")))
+
+(define-compilation catch (id &rest body)
+ (js!selfcall
+ "var id = " (ls-compile id) ";" *newline*
+ "try {" *newline*
+ (indent (ls-compile-block body t)) *newline*
+ "}" *newline*
+ "catch (cf){" *newline*
+ " if (cf.type == 'catch' && cf.id == id)" *newline*
+ (if *multiple-value-p*
+ " return values.apply(this, forcemv(cf.values));"
+ " return pv.apply(this, forcemv(cf.values));")
+ *newline*
+ " else" *newline*
+ " throw cf;" *newline*
+ "}" *newline*))
+
+(define-compilation throw (id value)
+ (js!selfcall
+ "var values = mv;" *newline*
+ "throw ({"
+ "type: 'catch', "
+ "id: " (ls-compile id) ", "
+ "values: " (ls-compile value t) ", "
+ "message: 'Throw uncatched.'"
+ "})"))
+
+
+(defvar *tagbody-counter* 0)
+(defvar *go-tag-counter* 0)
+
+(defun go-tag-p (x)
+ (or (integerp x) (symbolp x)))
+
+(defun declare-tagbody-tags (tbidx body)
+ (let ((bindings
+ (mapcar (lambda (label)
+ (let ((tagidx (integer-to-string (incf *go-tag-counter*))))
+ (make-binding label 'gotag (list tbidx tagidx))))
+ (remove-if-not #'go-tag-p body))))
+ (extend-lexenv bindings *environment* 'gotag)))
+
+(define-compilation tagbody (&rest body)
+ ;; Ignore the tagbody if it does not contain any go-tag. We do this
+ ;; because 1) it is easy and 2) many built-in forms expand to a
+ ;; implicit tagbody, so we save some space.
+ (unless (some #'go-tag-p body)
+ (return-from tagbody (ls-compile `(progn ,@body nil))))
+ ;; The translation assumes the first form in BODY is a label
+ (unless (go-tag-p (car body))
+ (push (gensym "START") body))
+ ;; Tagbody compilation
+ (let ((tbidx *tagbody-counter*))
+ (let ((*environment* (declare-tagbody-tags tbidx body))
+ initag)
+ (let ((b (lookup-in-lexenv (first body) *environment* 'gotag)))
+ (setq initag (second (binding-value b))))
+ (js!selfcall
+ "var tagbody_" tbidx " = " initag ";" *newline*
+ "tbloop:" *newline*
+ "while (true) {" *newline*
+ (indent "try {" *newline*
+ (indent (let ((content ""))
+ (code "switch(tagbody_" tbidx "){" *newline*
+ "case " initag ":" *newline*
+ (dolist (form (cdr body) content)
+ (concatf content
+ (if (not (go-tag-p form))
+ (indent (ls-compile form) ";" *newline*)
+ (let ((b (lookup-in-lexenv form *environment* 'gotag)))
+ (code "case " (second (binding-value b)) ":" *newline*)))))
+ "default:" *newline*
+ " break tbloop;" *newline*
+ "}" *newline*)))
+ "}" *newline*
+ "catch (jump) {" *newline*
+ " if (jump.type == 'tagbody' && jump.id == " tbidx ")" *newline*
+ " tagbody_" tbidx " = jump.label;" *newline*
+ " else" *newline*
+ " throw(jump);" *newline*
+ "}" *newline*)
+ "}" *newline*
+ "return " (ls-compile nil) ";" *newline*))))
+
+(define-compilation go (label)
+ (let ((b (lookup-in-lexenv label *environment* 'gotag))
+ (n (cond
+ ((symbolp label) (symbol-name label))
+ ((integerp label) (integer-to-string label)))))
+ (when (null b)
+ (error (concat "Unknown tag `" n "'.")))
+ (js!selfcall
+ "throw ({"
+ "type: 'tagbody', "
+ "id: " (first (binding-value b)) ", "
+ "label: " (second (binding-value b)) ", "
+ "message: 'Attempt to GO to non-existing tag " n "'"
+ "})" *newline*)))
+
+(define-compilation unwind-protect (form &rest clean-up)
+ (js!selfcall
+ "var ret = " (ls-compile nil) ";" *newline*
+ "try {" *newline*
+ (indent "ret = " (ls-compile form) ";" *newline*)
+ "} finally {" *newline*
+ (indent (ls-compile-block clean-up))
+ "}" *newline*
+ "return ret;" *newline*))
+
+(define-compilation multiple-value-call (func-form &rest forms)
+ (js!selfcall
+ "var func = " (ls-compile func-form) ";" *newline*
+ "var args = [" (if *multiple-value-p* "values" "pv") "];" *newline*
+ "return "
+ (js!selfcall
+ "var values = mv;" *newline*
+ "var vs;" *newline*
+ (mapconcat (lambda (form)
+ (code "vs = " (ls-compile form t) ";" *newline*
+ "if (typeof vs === 'object' && 'multiple-value' in vs)" *newline*
+ (indent "args = args.concat(vs);" *newline*)
+ "else" *newline*
+ (indent "args.push(vs);" *newline*)))
+ forms)
+ "return func.apply(window, args);" *newline*) ";" *newline*))
+
+(define-compilation multiple-value-prog1 (first-form &rest forms)
+ (js!selfcall
+ "var args = " (ls-compile first-form *multiple-value-p*) ";" *newline*
+ (ls-compile-block forms)
+ "return args;" *newline*))
+
+
+;;; Backquote implementation.
+;;;
+;;; Author: Guy L. Steele Jr. Date: 27 December 1985
+;;; Tested under Symbolics Common Lisp and Lucid Common Lisp.
+;;; This software is in the public domain.
+
+;;; The following are unique tokens used during processing.
+;;; They need not be symbols; they need not even be atoms.
+(defvar *comma* 'unquote)
+(defvar *comma-atsign* 'unquote-splicing)
+
+(defvar *bq-list* (make-symbol "BQ-LIST"))
+(defvar *bq-append* (make-symbol "BQ-APPEND"))
+(defvar *bq-list** (make-symbol "BQ-LIST*"))
+(defvar *bq-nconc* (make-symbol "BQ-NCONC"))
+(defvar *bq-clobberable* (make-symbol "BQ-CLOBBERABLE"))
+(defvar *bq-quote* (make-symbol "BQ-QUOTE"))
+(defvar *bq-quote-nil* (list *bq-quote* nil))
+
+;;; BACKQUOTE is an ordinary macro (not a read-macro) that processes
+;;; the expression foo, looking for occurrences of #:COMMA,
+;;; #:COMMA-ATSIGN, and #:COMMA-DOT. It constructs code in strict
+;;; accordance with the rules on pages 349-350 of the first edition
+;;; (pages 528-529 of this second edition). It then optionally
+;;; applies a code simplifier.
+
+;;; If the value of *BQ-SIMPLIFY* is non-NIL, then BACKQUOTE
+;;; processing applies the code simplifier. If the value is NIL,
+;;; then the code resulting from BACKQUOTE is exactly that
+;;; specified by the official rules.
+(defparameter *bq-simplify* t)
+
+(defmacro backquote (x)
+ (bq-completely-process x))
+
+;;; Backquote processing proceeds in three stages:
+;;;
+;;; (1) BQ-PROCESS applies the rules to remove occurrences of
+;;; #:COMMA, #:COMMA-ATSIGN, and #:COMMA-DOT corresponding to
+;;; this level of BACKQUOTE. (It also causes embedded calls to
+;;; BACKQUOTE to be expanded so that nesting is properly handled.)
+;;; Code is produced that is expressed in terms of functions
+;;; #:BQ-LIST, #:BQ-APPEND, and #:BQ-CLOBBERABLE. This is done
+;;; so that the simplifier will simplify only list construction
+;;; functions actually generated by BACKQUOTE and will not involve
+;;; any user code in the simplification. #:BQ-LIST means LIST,
+;;; #:BQ-APPEND means APPEND, and #:BQ-CLOBBERABLE means IDENTITY
+;;; but indicates places where "%." was used and where NCONC may
+;;; therefore be introduced by the simplifier for efficiency.
+;;;
+;;; (2) BQ-SIMPLIFY, if used, rewrites the code produced by
+;;; BQ-PROCESS to produce equivalent but faster code. The
+;;; additional functions #:BQ-LIST* and #:BQ-NCONC may be
+;;; introduced into the code.
+;;;
+;;; (3) BQ-REMOVE-TOKENS goes through the code and replaces
+;;; #:BQ-LIST with LIST, #:BQ-APPEND with APPEND, and so on.
+;;; #:BQ-CLOBBERABLE is simply eliminated (a call to it being
+;;; replaced by its argument). #:BQ-LIST* is replaced by either
+;;; LIST* or CONS (the latter is used in the two-argument case,
+;;; purely to make the resulting code a tad more readable).
+
+(defun bq-completely-process (x)
+ (let ((raw-result (bq-process x)))
+ (bq-remove-tokens (if *bq-simplify*
+ (bq-simplify raw-result)
+ raw-result))))
+
+(defun bq-process (x)
+ (cond ((atom x)
+ (list *bq-quote* x))
+ ((eq (car x) 'backquote)
+ (bq-process (bq-completely-process (cadr x))))
+ ((eq (car x) *comma*) (cadr x))
+ ((eq (car x) *comma-atsign*)
+ ;; (error ",@~S after `" (cadr x))
+ (error "ill-formed"))
+ ;; ((eq (car x) *comma-dot*)
+ ;; ;; (error ",.~S after `" (cadr x))
+ ;; (error "ill-formed"))
+ (t (do ((p x (cdr p))
+ (q '() (cons (bracket (car p)) q)))
+ ((atom p)
+ (cons *bq-append*
+ (nreconc q (list (list *bq-quote* p)))))
+ (when (eq (car p) *comma*)
+ (unless (null (cddr p))
+ ;; (error "Malformed ,~S" p)
+ (error "Malformed"))
+ (return (cons *bq-append*
+ (nreconc q (list (cadr p))))))
+ (when (eq (car p) *comma-atsign*)
+ ;; (error "Dotted ,@~S" p)
+ (error "Dotted"))
+ ;; (when (eq (car p) *comma-dot*)
+ ;; ;; (error "Dotted ,.~S" p)
+ ;; (error "Dotted"))
+ ))))
+
+;;; This implements the bracket operator of the formal rules.
+(defun bracket (x)
+ (cond ((atom x)
+ (list *bq-list* (bq-process x)))
+ ((eq (car x) *comma*)
+ (list *bq-list* (cadr x)))
+ ((eq (car x) *comma-atsign*)
+ (cadr x))
+ ;; ((eq (car x) *comma-dot*)
+ ;; (list *bq-clobberable* (cadr x)))
+ (t (list *bq-list* (bq-process x)))))
+
+;;; This auxiliary function is like MAPCAR but has two extra
+;;; purposes: (1) it handles dotted lists; (2) it tries to make
+;;; the result share with the argument x as much as possible.
+(defun maptree (fn x)
+ (if (atom x)
+ (funcall fn x)
+ (let ((a (funcall fn (car x)))
+ (d (maptree fn (cdr x))))
+ (if (and (eql a (car x)) (eql d (cdr x)))
+ x
+ (cons a d)))))
+
+;;; This predicate is true of a form that when read looked
+;;; like %@foo or %.foo.
+(defun bq-splicing-frob (x)
+ (and (consp x)
+ (or (eq (car x) *comma-atsign*)
+ ;; (eq (car x) *comma-dot*)
+ )))
+
+;;; This predicate is true of a form that when read
+;;; looked like %@foo or %.foo or just plain %foo.
+(defun bq-frob (x)
+ (and (consp x)
+ (or (eq (car x) *comma*)
+ (eq (car x) *comma-atsign*)
+ ;; (eq (car x) *comma-dot*)
+ )))
+
+;;; The simplifier essentially looks for calls to #:BQ-APPEND and
+;;; tries to simplify them. The arguments to #:BQ-APPEND are
+;;; processed from right to left, building up a replacement form.
+;;; At each step a number of special cases are handled that,
+;;; loosely speaking, look like this:
+;;;
+;;; (APPEND (LIST a b c) foo) => (LIST* a b c foo)
+;;; provided a, b, c are not splicing frobs
+;;; (APPEND (LIST* a b c) foo) => (LIST* a b (APPEND c foo))
+;;; provided a, b, c are not splicing frobs
+;;; (APPEND (QUOTE (x)) foo) => (LIST* (QUOTE x) foo)
+;;; (APPEND (CLOBBERABLE x) foo) => (NCONC x foo)
+(defun bq-simplify (x)
+ (if (atom x)
+ x
+ (let ((x (if (eq (car x) *bq-quote*)
+ x
+ (maptree #'bq-simplify x))))
+ (if (not (eq (car x) *bq-append*))
+ x
+ (bq-simplify-args x)))))
+
+(defun bq-simplify-args (x)
+ (do ((args (reverse (cdr x)) (cdr args))
+ (result
+ nil
+ (cond ((atom (car args))
+ (bq-attach-append *bq-append* (car args) result))
+ ((and (eq (caar args) *bq-list*)
+ (notany #'bq-splicing-frob (cdar args)))
+ (bq-attach-conses (cdar args) result))
+ ((and (eq (caar args) *bq-list**)
+ (notany #'bq-splicing-frob (cdar args)))
+ (bq-attach-conses
+ (reverse (cdr (reverse (cdar args))))
+ (bq-attach-append *bq-append*
+ (car (last (car args)))
+ result)))
+ ((and (eq (caar args) *bq-quote*)
+ (consp (cadar args))
+ (not (bq-frob (cadar args)))
+ (null (cddar args)))
+ (bq-attach-conses (list (list *bq-quote*
+ (caadar args)))
+ result))
+ ((eq (caar args) *bq-clobberable*)
+ (bq-attach-append *bq-nconc* (cadar args) result))
+ (t (bq-attach-append *bq-append*
+ (car args)
+ result)))))
+ ((null args) result)))
+
+(defun null-or-quoted (x)
+ (or (null x) (and (consp x) (eq (car x) *bq-quote*))))
+
+;;; When BQ-ATTACH-APPEND is called, the OP should be #:BQ-APPEND
+;;; or #:BQ-NCONC. This produces a form (op item result) but
+;;; some simplifications are done on the fly:
+;;;
+;;; (op '(a b c) '(d e f g)) => '(a b c d e f g)
+;;; (op item 'nil) => item, provided item is not a splicable frob
+;;; (op item 'nil) => (op item), if item is a splicable frob
+;;; (op item (op a b c)) => (op item a b c)
+(defun bq-attach-append (op item result)
+ (cond ((and (null-or-quoted item) (null-or-quoted result))
+ (list *bq-quote* (append (cadr item) (cadr result))))
+ ((or (null result) (equal result *bq-quote-nil*))
+ (if (bq-splicing-frob item) (list op item) item))
+ ((and (consp result) (eq (car result) op))
+ (list* (car result) item (cdr result)))
+ (t (list op item result))))
+
+;;; The effect of BQ-ATTACH-CONSES is to produce a form as if by
+;;; `(LIST* ,@items ,result) but some simplifications are done
+;;; on the fly.
+;;;
+;;; (LIST* 'a 'b 'c 'd) => '(a b c . d)
+;;; (LIST* a b c 'nil) => (LIST a b c)
+;;; (LIST* a b c (LIST* d e f g)) => (LIST* a b c d e f g)
+;;; (LIST* a b c (LIST d e f g)) => (LIST a b c d e f g)
+(defun bq-attach-conses (items result)
+ (cond ((and (every #'null-or-quoted items)
+ (null-or-quoted result))
+ (list *bq-quote*
+ (append (mapcar #'cadr items) (cadr result))))
+ ((or (null result) (equal result *bq-quote-nil*))
+ (cons *bq-list* items))
+ ((and (consp result)
+ (or (eq (car result) *bq-list*)
+ (eq (car result) *bq-list**)))
+ (cons (car result) (append items (cdr result))))
+ (t (cons *bq-list** (append items (list result))))))
+
+;;; Removes funny tokens and changes (#:BQ-LIST* a b) into
+;;; (CONS a b) instead of (LIST* a b), purely for readability.
+(defun bq-remove-tokens (x)
+ (cond ((eq x *bq-list*) 'list)
+ ((eq x *bq-append*) 'append)
+ ((eq x *bq-nconc*) 'nconc)
+ ((eq x *bq-list**) 'list*)
+ ((eq x *bq-quote*) 'quote)
+ ((atom x) x)
+ ((eq (car x) *bq-clobberable*)
+ (bq-remove-tokens (cadr x)))
+ ((and (eq (car x) *bq-list**)
+ (consp (cddr x))
+ (null (cdddr x)))
+ (cons 'cons (maptree #'bq-remove-tokens (cdr x))))
+ (t (maptree #'bq-remove-tokens x))))
(define-transformation backquote (form)
- (backquote-expand-1 form))
+ (bq-completely-process form))
+
;;; Primitives
+(defvar *builtins* nil)
+
+(defmacro define-raw-builtin (name args &body body)
+ ;; Creates a new primitive function `name' with parameters args and
+ ;; @body. The body can access to the local environment through the
+ ;; variable *ENVIRONMENT*.
+ `(push (list ',name (lambda ,args (block ,name ,@body)))
+ *builtins*))
+
(defmacro define-builtin (name args &body body)
- `(define-compilation ,name ,args
- (let ,(mapcar (lambda (arg) `(,arg (ls-compile ,arg env))) args)
+ `(define-raw-builtin ,name ,args
+ (let ,(mapcar (lambda (arg) `(,arg (ls-compile ,arg))) args)
,@body)))
-(defun compile-bool (x)
- (concat "(" x "?" (ls-compile t) ": " (ls-compile nil) ")"))
-
;;; DECLS is a list of (JSVARNAME TYPE LISPFORM) declarations.
(defmacro type-check (decls &body body)
- `(concat "(function(){" *newline*
- (indent ,@(mapcar (lambda (decl)
- `(concat "var " ,(first decl) " = " ,(third decl) ";" *newline*))
- decls)
-
- ,@(mapcar (lambda (decl)
- `(concat "if (typeof " ,(first decl) " != '" ,(second decl) "')" *newline*
- (indent "throw 'The value ' + "
- ,(first decl)
- " + ' is not a type "
- ,(second decl)
- ".';"
- *newline*)))
- decls)
- (concat "return " (progn ,@body) ";" *newline*))
- "})()"))
+ `(js!selfcall
+ ,@(mapcar (lambda (decl)
+ `(code "var " ,(first decl) " = " ,(third decl) ";" *newline*))
+ decls)
+ ,@(mapcar (lambda (decl)
+ `(code "if (typeof " ,(first decl) " != '" ,(second decl) "')" *newline*
+ (indent "throw 'The value ' + "
+ ,(first decl)
+ " + ' is not a type "
+ ,(second decl)
+ ".';"
+ *newline*)))
+ decls)
+ (code "return " (progn ,@body) ";" *newline*)))
+
+;;; VARIABLE-ARITY compiles variable arity operations. ARGS stands for
+;;; a variable which holds a list of forms. It will compile them and
+;;; store the result in some Javascript variables. BODY is evaluated
+;;; with ARGS bound to the list of these variables to generate the
+;;; code which performs the transformation on these variables.
+
+(defun variable-arity-call (args function)
+ (unless (consp args)
+ (error "ARGS must be a non-empty list"))
+ (let ((counter 0)
+ (fargs '())
+ (prelude ""))
+ (dolist (x args)
+ (if (numberp x)
+ (push (integer-to-string x) fargs)
+ (let ((v (code "x" (incf counter))))
+ (push v fargs)
+ (concatf prelude
+ (code "var " v " = " (ls-compile x) ";" *newline*
+ "if (typeof " v " !== 'number') throw 'Not a number!';"
+ *newline*)))))
+ (js!selfcall prelude (funcall function (reverse fargs)))))
+
+
+(defmacro variable-arity (args &body body)
+ (unless (symbolp args)
+ (error "Bad usage of VARIABLE-ARITY, you must pass a symbol"))
+ `(variable-arity-call ,args
+ (lambda (,args)
+ (code "return " ,@body ";" *newline*))))
(defun num-op-num (x op y)
(type-check (("x" "number" x) ("y" "number" y))
- (concat "x" op "y")))
-
-(define-builtin + (x y) (num-op-num x "+" y))
-(define-builtin - (x y) (num-op-num x "-" y))
-(define-builtin * (x y) (num-op-num x "*" y))
-(define-builtin / (x y) (num-op-num x "/" y))
+ (code "x" op "y")))
+
+(define-raw-builtin + (&rest numbers)
+ (if (null numbers)
+ "0"
+ (variable-arity numbers
+ (join numbers "+"))))
+
+(define-raw-builtin - (x &rest others)
+ (let ((args (cons x others)))
+ (variable-arity args
+ (if (null others)
+ (concat "-" (car args))
+ (join args "-")))))
+
+(define-raw-builtin * (&rest numbers)
+ (if (null numbers)
+ "1"
+ (variable-arity numbers
+ (join numbers "*"))))
+
+(define-raw-builtin / (x &rest others)
+ (let ((args (cons x others)))
+ (variable-arity args
+ (if (null others)
+ (concat "1 /" (car args))
+ (join args "/")))))
(define-builtin mod (x y) (num-op-num x "%" y))
-(define-builtin < (x y) (compile-bool (num-op-num x "<" y)))
-(define-builtin > (x y) (compile-bool (num-op-num x ">" y)))
-(define-builtin = (x y) (compile-bool (num-op-num x "==" y)))
-(define-builtin <= (x y) (compile-bool (num-op-num x "<=" y)))
-(define-builtin >= (x y) (compile-bool (num-op-num x ">=" y)))
+
+(defun comparison-conjuntion (vars op)
+ (cond
+ ((null (cdr vars))
+ "true")
+ ((null (cddr vars))
+ (concat (car vars) op (cadr vars)))
+ (t
+ (concat (car vars) op (cadr vars)
+ " && "
+ (comparison-conjuntion (cdr vars) op)))))
+
+(defmacro define-builtin-comparison (op sym)
+ `(define-raw-builtin ,op (x &rest args)
+ (let ((args (cons x args)))
+ (variable-arity args
+ (js!bool (comparison-conjuntion args ,sym))))))
+
+(define-builtin-comparison > ">")
+(define-builtin-comparison < "<")
+(define-builtin-comparison >= ">=")
+(define-builtin-comparison <= "<=")
+(define-builtin-comparison = "==")
(define-builtin numberp (x)
- (compile-bool (concat "(typeof (" x ") == \"number\")")))
+ (js!bool (code "(typeof (" x ") == \"number\")")))
(define-builtin floor (x)
(type-check (("x" "number" x))
"Math.floor(x)"))
-(define-builtin cons (x y) (concat "({car: " x ", cdr: " y "})"))
+(define-builtin cons (x y)
+ (code "({car: " x ", cdr: " y "})"))
+
(define-builtin consp (x)
- (compile-bool
- (concat "(function(){" *newline*
- (indent "var tmp = " x ";" *newline*
- "return (typeof tmp == 'object' && 'car' in tmp);" *newline*)
- "})()")))
+ (js!bool
+ (js!selfcall
+ "var tmp = " x ";" *newline*
+ "return (typeof tmp == 'object' && 'car' in tmp);" *newline*)))
(define-builtin car (x)
- (concat "(function(){" *newline*
- (indent "var tmp = " x ";" *newline*
- "return tmp === " (ls-compile nil)
- "? " (ls-compile nil)
- ": tmp.car;" *newline*)
- "})()"))
+ (js!selfcall
+ "var tmp = " x ";" *newline*
+ "return tmp === " (ls-compile nil)
+ "? " (ls-compile nil)
+ ": tmp.car;" *newline*))
(define-builtin cdr (x)
- (concat "(function(){" *newline*
- (indent "var tmp = " x ";" *newline*
- "return tmp === " (ls-compile nil) "? "
- (ls-compile nil)
- ": tmp.cdr;" *newline*)
- "})()"))
-
-(define-builtin setcar (x new)
+ (js!selfcall
+ "var tmp = " x ";" *newline*
+ "return tmp === " (ls-compile nil) "? "
+ (ls-compile nil)
+ ": tmp.cdr;" *newline*))
+
+(define-builtin rplaca (x new)
(type-check (("x" "object" x))
- (concat "(x.car = " new ")")))
+ (code "(x.car = " new ", x)")))
-(define-builtin setcdr (x new)
+(define-builtin rplacd (x new)
(type-check (("x" "object" x))
- (concat "(x.cdr = " new ")")))
+ (code "(x.cdr = " new ", x)")))
(define-builtin symbolp (x)
- (compile-bool
- (concat "(function(){" *newline*
- (indent "var tmp = " x ";" *newline*
- "return (typeof tmp == 'object' && 'name' in tmp);" *newline*)
- "})()")))
+ (js!bool
+ (js!selfcall
+ "var tmp = " x ";" *newline*
+ "return (typeof tmp == 'object' && 'name' in tmp);" *newline*)))
(define-builtin make-symbol (name)
(type-check (("name" "string" name))
"({name: name})"))
(define-builtin symbol-name (x)
- (concat "(" x ").name"))
+ (code "(" x ").name"))
+
+(define-builtin set (symbol value)
+ (code "(" symbol ").value = " value))
+
+(define-builtin fset (symbol value)
+ (code "(" symbol ").fvalue = " value))
+
+(define-builtin boundp (x)
+ (js!bool (code "(" x ".value !== undefined)")))
+
+(define-builtin symbol-value (x)
+ (js!selfcall
+ "var symbol = " x ";" *newline*
+ "var value = symbol.value;" *newline*
+ "if (value === undefined) throw \"Variable `\" + symbol.name + \"' is unbound.\";" *newline*
+ "return value;" *newline*))
+
+(define-builtin symbol-function (x)
+ (js!selfcall
+ "var symbol = " x ";" *newline*
+ "var func = symbol.fvalue;" *newline*
+ "if (func === undefined) throw \"Function `\" + symbol.name + \"' is undefined.\";" *newline*
+ "return func;" *newline*))
+
+(define-builtin symbol-plist (x)
+ (code "((" x ").plist || " (ls-compile nil) ")"))
+
+(define-builtin lambda-code (x)
+ (code "(" x ").toString()"))
-(define-builtin eq (x y) (compile-bool (concat "(" x " === " y ")")))
-(define-builtin equal (x y) (compile-bool (concat "(" x " == " y ")")))
+(define-builtin eq (x y) (js!bool (code "(" x " === " y ")")))
+(define-builtin equal (x y) (js!bool (code "(" x " == " y ")")))
-(define-builtin string (x)
+(define-builtin char-to-string (x)
(type-check (("x" "number" x))
"String.fromCharCode(x)"))
(define-builtin stringp (x)
- (compile-bool (concat "(typeof(" x ") == \"string\")")))
+ (js!bool (code "(typeof(" x ") == \"string\")")))
(define-builtin string-upcase (x)
(type-check (("x" "string" x))
(type-check (("x" "string" x))
"x.length"))
-(define-compilation slice (string a &optional b)
- (concat "(function(){" *newline*
- (indent "var str = " (ls-compile string env) ";" *newline*
- "var a = " (ls-compile a env) ";" *newline*
- "var b;" *newline*
- (if b
- (concat "b = " (ls-compile b env) ";" *newline*)
- "")
- "return str.slice(a,b);" *newline*)
- "})()"))
+(define-raw-builtin slice (string a &optional b)
+ (js!selfcall
+ "var str = " (ls-compile string) ";" *newline*
+ "var a = " (ls-compile a) ";" *newline*
+ "var b;" *newline*
+ (when b (code "b = " (ls-compile b) ";" *newline*))
+ "return str.slice(a,b);" *newline*))
(define-builtin char (string index)
(type-check (("string" "string" string)
("string2" "string" string2))
"string1.concat(string2)"))
-(define-compilation funcall (func &rest args)
- (concat "(" (ls-compile func env) ")("
- (join (mapcar (lambda (x)
- (ls-compile x env))
- args)
- ", ")
- ")"))
+(define-raw-builtin funcall (func &rest args)
+ (js!selfcall
+ "var f = " (ls-compile func) ";" *newline*
+ "return (typeof f === 'function'? f: f.fvalue)("
+ (join (cons (if *multiple-value-p* "values" "pv")
+ (mapcar #'ls-compile args))
+ ", ")
+ ")"))
-(define-compilation apply (func &rest args)
+(define-raw-builtin apply (func &rest args)
(if (null args)
- (concat "(" (ls-compile func env) ")()")
+ (code "(" (ls-compile func) ")()")
(let ((args (butlast args))
(last (car (last args))))
- (concat "(function(){" *newline*
- (indent "var f = " (ls-compile func env) ";" *newline*
- "var args = [" (join (mapcar (lambda (x)
- (ls-compile x env))
- args)
- ", ")
- "];" *newline*
- "var tail = (" (ls-compile last env) ");" *newline*
- (indent "while (tail != " (ls-compile nil) "){" *newline*
- " args.push(tail.car);" *newline*
- " tail = tail.cdr;" *newline*
- "}" *newline*
- "return f.apply(this, args);" *newline*)
- "})()")))))
+ (js!selfcall
+ "var f = " (ls-compile func) ";" *newline*
+ "var args = [" (join (cons (if *multiple-value-p* "values" "pv")
+ (mapcar #'ls-compile args))
+ ", ")
+ "];" *newline*
+ "var tail = (" (ls-compile last) ");" *newline*
+ "while (tail != " (ls-compile nil) "){" *newline*
+ " args.push(tail.car);" *newline*
+ " tail = tail.cdr;" *newline*
+ "}" *newline*
+ "return (typeof f === 'function'? f : f.fvalue).apply(this, args);" *newline*))))
(define-builtin js-eval (string)
(type-check (("string" "string" string))
- "eval.apply(window, [string])"))
+ (if *multiple-value-p*
+ (js!selfcall
+ "var v = eval.apply(window, [string]);" *newline*
+ "if (typeof v !== 'object' || !('multiple-value' in v)){" *newline*
+ (indent "v = [v];" *newline*
+ "v['multiple-value'] = true;" *newline*)
+ "}" *newline*
+ "return values.apply(this, v);" *newline*)
+ "eval.apply(window, [string])")))
(define-builtin error (string)
- (concat "(function (){ throw " string "; })()"))
+ (js!selfcall "throw " string ";" *newline*))
(define-builtin new () "{}")
-(define-builtin get (object key)
- (concat "(function(){" *newline*
- (indent "var tmp = " "(" object ")[" key "];" *newline*
- "return tmp == undefined? " (ls-compile nil) ": tmp ;" *newline*)
- "})()"))
+(define-builtin objectp (x)
+ (js!bool (code "(typeof (" x ") === 'object')")))
+
+(define-builtin oget (object key)
+ (js!selfcall
+ "var tmp = " "(" object ")[" key "];" *newline*
+ "return tmp == undefined? " (ls-compile nil) ": tmp ;" *newline*))
-(define-builtin set (object key value)
- (concat "((" object ")[" key "] = " value ")"))
+(define-builtin oset (object key value)
+ (code "((" object ")[" key "] = " value ")"))
(define-builtin in (key object)
- (compile-bool (concat "((" key ") in (" object "))")))
+ (js!bool (code "((" key ") in (" object "))")))
(define-builtin functionp (x)
- (compile-bool (concat "(typeof " x " == 'function')")))
+ (js!bool (code "(typeof " x " == 'function')")))
(define-builtin write-string (x)
(type-check (("x" "string" x))
"lisp.write(x)"))
-(defun macrop (x)
- (and (symbolp x) (eq (binding-type (lookup-function x *environment*)) 'macro)))
-
-(defun ls-macroexpand-1 (form env)
- (if (macrop (car form))
- (let ((binding (lookup-function (car form) *environment*)))
- (if (eq (binding-type binding) 'macro)
- (apply (eval (binding-translation binding)) (cdr form))
- form))
- form))
-
-(defun compile-funcall (function args env)
- (cond
- ((symbolp function)
- (concat (lookup-function-translation function env)
- "("
- (join (mapcar (lambda (x) (ls-compile x env)) args)
- ", ")
- ")"))
- ((and (listp function) (eq (car function) 'lambda))
- (concat "(" (ls-compile function env) ")("
- (join (mapcar (lambda (x) (ls-compile x env)) args)
- ", ")
- ")"))
- (t
- (error (concat "Invalid function designator " (symbol-name function))))))
+(define-builtin make-array (n)
+ (js!selfcall
+ "var r = [];" *newline*
+ "for (var i = 0; i < " n "; i++)" *newline*
+ (indent "r.push(" (ls-compile nil) ");" *newline*)
+ "return r;" *newline*))
+
+(define-builtin arrayp (x)
+ (js!bool
+ (js!selfcall
+ "var x = " x ";" *newline*
+ "return typeof x === 'object' && 'length' in x;")))
+
+(define-builtin aref (array n)
+ (js!selfcall
+ "var x = " "(" array ")[" n "];" *newline*
+ "if (x === undefined) throw 'Out of range';" *newline*
+ "return x;" *newline*))
+
+(define-builtin aset (array n value)
+ (js!selfcall
+ "var x = " array ";" *newline*
+ "var i = " n ";" *newline*
+ "if (i < 0 || i >= x.length) throw 'Out of range';" *newline*
+ "return x[i] = " value ";" *newline*))
+
+(define-builtin get-unix-time ()
+ (code "(Math.round(new Date() / 1000))"))
+
+(define-builtin values-array (array)
+ (if *multiple-value-p*
+ (code "values.apply(this, " array ")")
+ (code "pv.apply(this, " array ")")))
+
+(define-raw-builtin values (&rest args)
+ (if *multiple-value-p*
+ (code "values(" (join (mapcar #'ls-compile args) ", ") ")")
+ (code "pv(" (join (mapcar #'ls-compile args) ", ") ")")))
+
+(defun macro (x)
+ (and (symbolp x)
+ (let ((b (lookup-in-lexenv x *environment* 'function)))
+ (and (eq (binding-type b) 'macro)
+ b))))
+
+(defun ls-macroexpand-1 (form)
+ (let ((macro-binding (macro (car form))))
+ (if macro-binding
+ (let ((expander (binding-value macro-binding)))
+ (when (listp expander)
+ (let ((compiled (eval expander)))
+ ;; The list representation are useful while
+ ;; bootstrapping, as we can dump the definition of the
+ ;; macros easily, but they are slow because we have to
+ ;; evaluate them and compile them now and again. So, let
+ ;; us replace the list representation version of the
+ ;; function with the compiled one.
+ ;;
+ #+ecmalisp (set-binding-value macro-binding compiled)
+ (setq expander compiled)))
+ (apply expander (cdr form)))
+ form)))
+
+(defun compile-funcall (function args)
+ (let* ((values-funcs (if *multiple-value-p* "values" "pv"))
+ (arglist (concat "(" (join (cons values-funcs (mapcar #'ls-compile args)) ", ") ")")))
+ (cond
+ ((translate-function function)
+ (concat (translate-function function) arglist))
+ ((and (symbolp function)
+ #+ecmalisp (eq (symbol-package function) (find-package "COMMON-LISP"))
+ #+common-lisp t)
+ (code (ls-compile `',function) ".fvalue" arglist))
+ (t
+ (code (ls-compile `#',function) arglist)))))
+
+(defun ls-compile-block (sexps &optional return-last-p)
+ (if return-last-p
+ (code (ls-compile-block (butlast sexps))
+ "return " (ls-compile (car (last sexps)) *multiple-value-p*) ";")
+ (join-trailing
+ (remove-if #'null-or-empty-p (mapcar #'ls-compile sexps))
+ (concat ";" *newline*))))
+
+(defun ls-compile (sexp &optional multiple-value-p)
+ (let ((*multiple-value-p* multiple-value-p))
+ (cond
+ ((symbolp sexp)
+ (let ((b (lookup-in-lexenv sexp *environment* 'variable)))
+ (cond
+ ((and b (not (member 'special (binding-declarations b))))
+ (binding-value b))
+ ((or (keywordp sexp)
+ (member 'constant (binding-declarations b)))
+ (code (ls-compile `',sexp) ".value"))
+ (t
+ (ls-compile `(symbol-value ',sexp))))))
+ ((integerp sexp) (integer-to-string sexp))
+ ((stringp sexp) (code "\"" (escape-string sexp) "\""))
+ ((arrayp sexp) (literal sexp))
+ ((listp sexp)
+ (let ((name (car sexp))
+ (args (cdr sexp)))
+ (cond
+ ;; Special forms
+ ((assoc name *compilations*)
+ (let ((comp (second (assoc name *compilations*))))
+ (apply comp args)))
+ ;; Built-in functions
+ ((and (assoc name *builtins*)
+ (not (claimp name 'function 'notinline)))
+ (let ((comp (second (assoc name *builtins*))))
+ (apply comp args)))
+ (t
+ (if (macro name)
+ (ls-compile (ls-macroexpand-1 sexp) multiple-value-p)
+ (compile-funcall name args))))))
+ (t
+ (error (concat "How should I compile " (prin1-to-string sexp) "?"))))))
-(defun ls-compile (sexp &optional (env (make-lexenv)))
- (cond
- ((symbolp sexp) (lookup-variable-translation sexp env))
- ((integerp sexp) (integer-to-string sexp))
- ((stringp sexp) (concat "\"" (escape-string sexp) "\""))
- ((listp sexp)
- (if (assoc (car sexp) *compilations*)
- (let ((comp (second (assoc (car sexp) *compilations*))))
- (apply comp env (cdr sexp)))
- (if (macrop (car sexp))
- (ls-compile (ls-macroexpand-1 sexp env) env)
- (compile-funcall (car sexp) (cdr sexp) env))))))
-
-(defun ls-compile-toplevel (sexp)
- (setq *toplevel-compilations* nil)
- (let ((code (ls-compile sexp)))
- (prog1
- (concat (join (mapcar (lambda (x) (concat x ";" *newline*))
- *toplevel-compilations*))
- code)
- (setq *toplevel-compilations* nil))))
+(defun ls-compile-toplevel (sexp &optional multiple-value-p)
+ (let ((*toplevel-compilations* nil))
+ (cond
+ ((and (consp sexp) (eq (car sexp) 'progn))
+ (let ((subs (mapcar (lambda (s)
+ (ls-compile-toplevel s t))
+ (cdr sexp))))
+ (join (remove-if #'null-or-empty-p subs))))
+ (t
+ (let ((code (ls-compile sexp multiple-value-p)))
+ (code (join-trailing (get-toplevel-compilations)
+ (code ";" *newline*))
+ (when code
+ (code code ";" *newline*))))))))
;;; Once we have the compiler, we define the runtime environment and
#+ecmalisp
(progn
- (defmacro with-compilation-unit (&body body)
- `(prog1
- (progn
- (setq *compilation-unit-checks* nil)
- (clear-undeclared-global-bindings)
- ,@body)
- (dolist (check *compilation-unit-checks*)
- (funcall check))))
-
(defun eval (x)
- (let ((code
- (with-compilation-unit
- (ls-compile-toplevel x))))
- (js-eval code)))
+ (js-eval (ls-compile-toplevel x t)))
+
+ (export '(&rest &key &optional &body * *gensym-counter* *package* + - / 1+ 1- <
+ <= = = > >= and append apply aref arrayp assoc atom block boundp
+ boundp butlast caar cadddr caddr cadr car car case catch cdar cdddr
+ cddr cdr cdr char char-code fdefinition find-package find-symbol first
+ flet fourth fset funcall function functionp gensym get-setf-expansion
+ get-universal-time go identity if in-package incf integerp integerp
+ intern keywordp labels lambda last length let let* char= code-char
+ cond cons consp constantly copy-list decf declaim define-setf-expander
+ defconstant defparameter defun defmacro defvar digit-char digit-char-p
+ disassemble do do* documentation dolist dotimes ecase eq eql equal
+ error eval every export list-all-packages list list* listp loop make-array
+ make-package make-symbol mapcar member minusp mod multiple-value-bind
+ multiple-value-call multiple-value-list multiple-value-prog1 nconc nil not
+ nth nthcdr null numberp or package-name package-use-list packagep
+ parse-integer plusp prin1-to-string print proclaim prog1 prog2 progn
+ psetq push quote nreconc remove remove-if remove-if-not return return-from
+ revappend reverse rplaca rplacd second set setf setq some
+ string-upcase string string= stringp subseq symbol-function
+ symbol-name symbol-package symbol-plist symbol-value symbolp t tagbody
+ third throw truncate unless unwind-protect values values-list variable
+ warn when write-line write-string zerop))
+
+ (setq *package* *user-package*)
+
+ (js-eval "var lisp")
+ (js-vset "lisp" (new))
+ (js-vset "lisp.read" #'ls-read-from-string)
+ (js-vset "lisp.print" #'prin1-to-string)
+ (js-vset "lisp.eval" #'eval)
+ (js-vset "lisp.compile" (lambda (s) (ls-compile-toplevel s t)))
+ (js-vset "lisp.evalString" (lambda (str) (eval (ls-read-from-string str))))
+ (js-vset "lisp.compileString" (lambda (str) (ls-compile-toplevel (ls-read-from-string str) t)))
;; Set the initial global environment to be equal to the host global
;; environment at this point of the compilation.
(eval-when-compile
- (let ((tmp (ls-compile
- `(progn
- (setq *environment* ',*environment*)
- (setq *variable-counter* ',*variable-counter*)
- (setq *function-counter* ',*function-counter*)
- (setq *literal-counter* ',*literal-counter*)
- (setq *gensym-counter* ',*gensym-counter*)
- (setq *block-counter* ',*block-counter*)))))
- (setq *toplevel-compilations*
- (append *toplevel-compilations* (list tmp)))))
-
- (js-eval
- (concat "var lisp = {};"
- "lisp.read = " (lookup-function-translation 'ls-read-from-string nil) ";" *newline*
- "lisp.print = " (lookup-function-translation 'print-to-string nil) ";" *newline*
- "lisp.eval = " (lookup-function-translation 'eval nil) ";" *newline*
- "lisp.compile = " (lookup-function-translation 'ls-compile-toplevel nil) ";" *newline*
- "lisp.evalString = function(str){" *newline*
- " return lisp.eval(lisp.read(str));" *newline*
- "}" *newline*
- "lisp.compileString = function(str){" *newline*
- " return lisp.compile(lisp.read(str));" *newline*
- "}" *newline*)))
+ (toplevel-compilation
+ (ls-compile `(setq *environment* ',*environment*))))
+
+ (eval-when-compile
+ (toplevel-compilation
+ (ls-compile
+ `(progn
+ ,@(mapcar (lambda (s) `(%intern-symbol (js-vref ,(cdr s))))
+ *literal-symbols*)
+ (setq *literal-symbols* ',*literal-symbols*)
+ (setq *variable-counter* ,*variable-counter*)
+ (setq *gensym-counter* ,*gensym-counter*)
+ (setq *block-counter* ,*block-counter*)))))
+
+ (eval-when-compile
+ (toplevel-compilation
+ (ls-compile
+ `(setq *literal-counter* ,*literal-counter*)))))
;;; Finally, we provide a couple of functions to easily bootstrap
seq)))
(defun ls-compile-file (filename output)
- (setq *compilation-unit-checks* nil)
- (with-open-file (out output :direction :output :if-exists :supersede)
- (let* ((source (read-whole-file filename))
- (in (make-string-stream source)))
- (loop
- for x = (ls-read in)
- until (eq x *eof*)
- for compilation = (ls-compile-toplevel x)
- when (plusp (length compilation))
- do (write-line (concat compilation "; ") out))
- (dolist (check *compilation-unit-checks*)
- (funcall check))
- (setq *compilation-unit-checks* nil))))
+ (let ((*compiling-file* t))
+ (with-open-file (out output :direction :output :if-exists :supersede)
+ (write-string (read-whole-file "prelude.js") out)
+ (let* ((source (read-whole-file filename))
+ (in (make-string-stream source)))
+ (loop
+ for x = (ls-read in)
+ until (eq x *eof*)
+ for compilation = (ls-compile-toplevel x)
+ when (plusp (length compilation))
+ do (write-string compilation out))))))
(defun bootstrap ()
(setq *environment* (make-lexenv))
+ (setq *literal-symbols* nil)
(setq *variable-counter* 0
*gensym-counter* 0
- *function-counter* 0
*literal-counter* 0
*block-counter* 0)
(ls-compile-file "ecmalisp.lisp" "ecmalisp.js")))