(in-package :parenscript) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; literals (defmacro defpsliteral (name string) `(define-ps-special-form ,name (expecting) (declare (ignore expecting)) (list 'js-literal ,string))) (defpsliteral this "this") (defpsliteral t "true") (defpsliteral true "true") (defpsliteral false "false") (defpsliteral f "false") (defpsliteral nil "null") (defpsliteral undefined "undefined") (defpsliteral break "break") (defpsliteral continue "continue") ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; unary operators (mapcar (lambda (op) (eval `(define-ps-special-form ,op (expecting value) (declare (ignore expecting)) (list 'js-named-operator ',op (compile-parenscript-form value))))) '(throw delete void typeof new)) (define-ps-special-form return (expecting &optional value) (declare (ignore expecting)) (list 'js-return (compile-parenscript-form value :expecting :expression))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; arrays (define-ps-special-form array (expecting &rest values) (declare (ignore expecting)) (cons 'array-literal (mapcar (lambda (form) (compile-parenscript-form form :expecting :expression)) values))) (define-ps-special-form aref (expecting array &rest coords) (declare (ignore expecting)) (list 'js-aref (compile-parenscript-form array :expecting :expression) (mapcar (lambda (form) (compile-parenscript-form form :expecting :expression)) coords))) (define-ps-special-form {} (expecting &rest arrows) (declare (ignore expecting)) (cons 'object-literal (loop for (key value) on arrows by #'cddr collect (cons key (compile-parenscript-form value :expecting :expression))))) (defpsmacro list (&rest values) `(array ,@values)) (defpsmacro make-array (&rest inits) `(new (*array ,@inits))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; operators (define-ps-special-form incf (expecting x &optional (delta 1)) (declare (ignore expecting)) (if (equal delta 1) (list 'unary-operator "++" (compile-parenscript-form x :expecting :expression) :prefix t) (list 'operator '+= (list (compile-parenscript-form x :expecting :expression) (compile-parenscript-form delta :expecting :expression))))) (define-ps-special-form decf (expecting x &optional (delta 1)) (declare (ignore expecting)) (if (equal delta 1) (list 'unary-operator "--" (compile-parenscript-form x :expecting :expression) :prefix t) (list 'operator '-= (list (compile-parenscript-form x :expecting :expression) (compile-parenscript-form delta :expecting :expression))))) (define-ps-special-form - (expecting first &rest rest) (declare (ignore expecting)) (if (null rest) (list 'unary-operator "-" (compile-parenscript-form first :expecting :expression) :prefix t) (list 'operator '- (mapcar (lambda (val) (compile-parenscript-form val :expecting :expression)) (cons first rest))))) (define-ps-special-form not (expecting x) (declare (ignore expecting)) (let ((form (compile-parenscript-form x :expecting :expression)) (not-op nil)) (if (and (eql (first form) 'operator) (= (length (third form)) 2) (setf not-op (case (second form) (== '!=) (< '>=) (> '<=) (<= '>) (>= '<) (!= '==) (=== '!==) (!== '===) (t nil)))) (list 'operator not-op (third form)) (list 'unary-operator "!" form :prefix t)))) (define-ps-special-form ~ (expecting x) (declare (ignore expecting)) (list 'unary-operator "~" (compile-parenscript-form x :expecting :expression) :prefix t)) (defpsmacro 1- (form) `(- ,form 1)) (defpsmacro 1+ (form) `(+ ,form 1)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; control structures (defun flatten-blocks (body) (when body (if (and (listp (car body)) (eql 'js-block (caar body))) (append (third (car body)) (flatten-blocks (cdr body))) (cons (car body) (flatten-blocks (cdr body)))))) (defun constant-literal-form-p (form) (or (numberp form) (stringp form) (and (listp form) (eql 'js-literal (car form))))) (define-ps-special-form progn (expecting &rest body) (if (and (eql expecting :expression) (= 1 (length body))) (compile-parenscript-form (car body) :expecting :expression) (list 'js-block expecting (let* ((block (mapcar (lambda (form) (compile-parenscript-form form :expecting expecting)) body)) (clean-block (remove nil block)) (flat-block (flatten-blocks clean-block)) (reachable-block (append (remove-if #'constant-literal-form-p (butlast flat-block)) (last flat-block)))) reachable-block)))) (define-ps-special-form cond (expecting &rest clauses) (ecase expecting (:statement (list 'js-cond-statement (mapcar (lambda (clause) (destructuring-bind (test &rest body) clause (list (compile-parenscript-form test :expecting :expression) (compile-parenscript-form `(progn ,@body) :expecting :statement)))) clauses))) (:expression (make-cond-clauses-into-nested-ifs clauses)))) (defun make-cond-clauses-into-nested-ifs (clauses) (if clauses (destructuring-bind (test &rest body) (car clauses) (if (eq t test) (compile-parenscript-form `(progn ,@body) :expecting :expression) (list 'js-expression-if (compile-parenscript-form test :expecting :expression) (compile-parenscript-form `(progn ,@body) :expecting :expression) (make-cond-clauses-into-nested-ifs (cdr clauses))))) (compile-parenscript-form nil :expecting :expression))) (define-ps-special-form if (expecting test then &optional else) (ecase expecting (:statement (list 'js-statement-if (compile-parenscript-form test :expecting :expression) (compile-parenscript-form `(progn ,then)) (when else (compile-parenscript-form `(progn ,else))))) (:expression (list 'js-expression-if (compile-parenscript-form test :expecting :expression) (compile-parenscript-form then :expecting :expression) (compile-parenscript-form else :expecting :expression))))) (define-ps-special-form switch (expecting test-expr &rest clauses) (declare (ignore expecting)) (let ((clauses (mapcar (lambda (clause) (let ((val (car clause)) (body (cdr clause))) (cons (if (eql val 'default) 'default (compile-parenscript-form val :expecting :expression)) (mapcar (lambda (statement) (compile-parenscript-form statement :expecting :statement)) body)))) clauses)) (expr (compile-parenscript-form test-expr :expecting :expression))) (list 'js-switch expr clauses))) (defpsmacro case (value &rest clauses) (labels ((make-clause (val body more) (cond ((listp val) (append (mapcar #'list (butlast val)) (make-clause (first (last val)) body more))) ((member val '(t otherwise)) (make-clause 'default body more)) (more `((,val ,@body break))) (t `((,val ,@body)))))) `(switch ,value ,@(mapcon (lambda (clause) (make-clause (car (first clause)) (cdr (first clause)) (rest clause))) clauses)))) (defpsmacro when (test &rest body) `(if ,test (progn ,@body))) (defpsmacro unless (test &rest body) `(if (not ,test) (progn ,@body))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; function definition (defun compile-function-definition (args body) (list (mapcar (lambda (arg) (compile-parenscript-form arg :expecting :symbol)) args) (let ((*enclosing-lexical-block-declarations* ())) ;; the first compilation will produce a list of variables we need to declare in the function body (compile-parenscript-form `(progn ,@body) :expecting :statement) ;; now declare and compile (compile-parenscript-form `(progn ,@(loop for var in *enclosing-lexical-block-declarations* collect `(defvar ,var)) ,@body) :expecting :statement)))) (define-ps-special-form %js-lambda (expecting args &rest body) (declare (ignore expecting)) (cons 'js-lambda (compile-function-definition args body))) (define-ps-special-form %js-defun (expecting name args &rest body) (declare (ignore expecting)) (append (list 'js-defun name) (compile-function-definition args body))) (defun parse-function-body (body) (let* ((docstring (when (stringp (first body)) (first body))) (body-forms (if docstring (rest body) body))) (values body-forms docstring))) (defun parse-key-spec (key-spec) "parses an &key parameter. Returns 4 values: var, init-form, keyword-name, supplied-p-var, init-form-supplied-p. Syntax of key spec: [&key {var | ({var | (keyword-name var)} [init-form [supplied-p-parameter]])}* " (let* ((var (cond ((symbolp key-spec) key-spec) ((and (listp key-spec) (symbolp (first key-spec))) (first key-spec)) ((and (listp key-spec) (listp (first key-spec))) (second key-spec)))) (keyword-name (if (and (listp key-spec) (listp (first key-spec))) (first (first key-spec)) (intern (string var) :keyword))) (init-form (if (listp key-spec) (second key-spec) nil)) (init-form-supplied-p (if (listp key-spec) t nil)) (supplied-p-var (if (listp key-spec) (third key-spec) nil))) (values var init-form keyword-name supplied-p-var init-form-supplied-p))) (defun parse-optional-spec (spec) "Parses an &optional parameter. Returns 3 values: var, init-form, supplied-p-var. [&optional {var | (var [init-form [supplied-p-parameter]])}*] " (let* ((var (cond ((symbolp spec) spec) ((and (listp spec) (first spec))))) (init-form (if (listp spec) (second spec))) (supplied-p-var (if (listp spec) (third spec)))) (values var init-form supplied-p-var))) (defun parse-aux-spec (spec) "Returns two values: variable and init-form" ;; [&aux {var | (var [init-form])}*]) (values (if (symbolp spec) spec (first spec)) (when (listp spec) (second spec)))) (defpsmacro defaultf (place value) `(setf ,place (or (and (=== undefined ,place) ,value) ,place))) (defun parse-extended-function (lambda-list body &optional name) "Returns two values: the effective arguments and body for a function with the given lambda-list and body." ;; The lambda list is transformed as follows, since a javascript lambda list is just a ;; list of variable names, and you have access to the arguments variable inside the function: ;; * standard variables are the mapped directly into the js-lambda list ;; * optional variables' variable names are mapped directly into the lambda list, ;; and for each optional variable with name v and default value d, a form is produced ;; (defaultf v d) ;; * when any keyword variables are in the lambda list, a single 'optional-args' variable is ;; appended to the js-lambda list as the last argument. WITH-SLOTS is used for all ;; the variables with inside the body of the function, ;; a (with-slots ((var-name key-name)) optional-args ...) (declare (ignore name)) (multiple-value-bind (requireds optionals rest? rest keys? keys allow? aux? aux more? more-context more-count key-object) (parse-lambda-list lambda-list) (declare (ignore allow? aux? aux more? more-context more-count)) (let* ((options-var (or key-object (ps-gensym))) ;; optionals are of form (var default-value) (effective-args (remove-if #'null (append requireds (mapcar #'parse-optional-spec optionals) (when keys (list options-var))))) ;; an alist of arg -> default val (initform-pairs (remove nil (append ;; optional arguments first (mapcar #'(lambda (opt-spec) (multiple-value-bind (var val) (parse-optional-spec opt-spec) (cons var val))) optionals) (if keys? (list (cons options-var '(create)))) (mapcar #'(lambda (key-spec) (multiple-value-bind (var val x y specified?) (parse-key-spec key-spec) (declare (ignore x y)) (when specified? (cons var val)))) keys)))) (body-paren-forms (parse-function-body body)) ;remove documentation ;; (initform-forms (mapcar #'(lambda (default-pair) `(defaultf ,(car default-pair) ,(cdr default-pair))) initform-pairs)) (rest-form (if rest? (with-ps-gensyms (i) `(progn (defvar ,rest array) (dotimes (,i (- arguments.length ,(length effective-args))) (setf (aref ,rest ,i) (aref arguments (+ ,i ,(length effective-args))))))) `(progn))) (effective-body (append initform-forms (list rest-form) body-paren-forms)) (effective-body (if keys? (list `(with-slots ,(mapcar #'(lambda (key-spec) (multiple-value-bind (var x key-name) (parse-key-spec key-spec) (declare (ignore x)) (list var key-name))) keys) ,options-var ,@effective-body)) effective-body))) (values effective-args effective-body)))) (defpsmacro defun (name lambda-list &body body) "An extended defun macro that allows cool things like keyword arguments. lambda-list::= (var* [&optional {var | (var [init-form [supplied-p-parameter]])}*] [&rest var] [&key {var | ({var | (keyword-name var)} [init-form [supplied-p-parameter]])}* [&allow-other-keys]] [&aux {var | (var [init-form])}*])" (if (symbolp name) `(defun-function ,name ,lambda-list ,@body) (progn (assert (and (= (length name) 2) (eql 'setf (car name))) () "(defun ~s ~s ...) needs to have a symbol or (setf symbol) for a name." name lambda-list) `(defun-setf ,name ,lambda-list ,@body)))) (defpsmacro defun-function (name lambda-list &body body) (multiple-value-bind (effective-args effective-body) (parse-extended-function lambda-list body name) `(%js-defun ,name ,effective-args ,@effective-body))) (defvar *defun-setf-name-prefix* "__setf_") (defpsmacro defun-setf (setf-name lambda-list &body body) (let ((mangled-function-name (intern (concatenate 'string *defun-setf-name-prefix* (symbol-name (second setf-name))) (symbol-package (second setf-name)))) (function-args (cdr (ordered-set-difference lambda-list lambda-list-keywords)))) `(progn (defsetf ,(second setf-name) ,(cdr lambda-list) (store-var) `(,',mangled-function-name ,store-var ,@(list ,@function-args))) (defun ,mangled-function-name ,lambda-list ,@body)))) (defpsmacro lambda (lambda-list &body body) "An extended defun macro that allows cool things like keyword arguments. lambda-list::= (var* [&optional {var | (var [init-form [supplied-p-parameter]])}*] [&rest var] [&key {var | ({var | (keyword-name var)} [init-form [supplied-p-parameter]])}* [&allow-other-keys]] [&aux {var | (var [init-form])}*])" (multiple-value-bind (effective-args effective-body) (parse-extended-function lambda-list body) `(%js-lambda ,effective-args ,@effective-body))) (defpsmacro defsetf-long (access-fn lambda-list (store-var) form) (setf (get-macro-spec access-fn *script-setf-expanders*) (compile nil (let ((var-bindings (ordered-set-difference lambda-list lambda-list-keywords))) `(lambda (access-fn-args store-form) (destructuring-bind ,lambda-list access-fn-args (let* ((,store-var (ps-gensym)) (gensymed-names (loop repeat ,(length var-bindings) collecting (ps-gensym))) (gensymed-arg-bindings (mapcar #'list gensymed-names (list ,@var-bindings)))) (destructuring-bind ,var-bindings gensymed-names `(let (,@gensymed-arg-bindings (,,store-var ,store-form)) ,,form)))))))) nil) (defpsmacro defsetf-short (access-fn update-fn &optional docstring) (declare (ignore docstring)) (setf (get-macro-spec access-fn *script-setf-expanders*) (lambda (access-fn-args store-form) `(,update-fn ,@access-fn-args ,store-form))) nil) (defpsmacro defsetf (access-fn &rest args) `(,(if (= (length args) 3) 'defsetf-long 'defsetf-short) ,access-fn ,@args)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; macros (defmacro with-temp-macro-environment ((var) &body body) `(let* ((,var (make-macro-env-dictionary)) (*script-macro-env* (cons ,var *script-macro-env*))) ,@body)) (define-ps-special-form macrolet (expecting macros &body body) (declare (ignore expecting)) (with-temp-macro-environment (macro-env-dict) (dolist (macro macros) (destructuring-bind (name arglist &body body) macro (setf (get-macro-spec name macro-env-dict) (cons nil (make-ps-macro-function arglist body))))) (compile-parenscript-form `(progn ,@body)))) (define-ps-special-form symbol-macrolet (expecting symbol-macros &body body) (declare (ignore expecting)) (with-temp-macro-environment (macro-env-dict) (dolist (macro symbol-macros) (destructuring-bind (name expansion) macro (setf (get-macro-spec name macro-env-dict) (cons t (make-ps-macro-function () (list `',expansion)))))) (compile-parenscript-form `(progn ,@body)))) (define-ps-special-form defmacro (expecting name args &body body) (declare (ignore expecting)) (define-script-macro% name args body :symbol-macro-p nil) nil) (define-ps-special-form define-symbol-macro (expecting name expansion) (declare (ignore expecting)) (define-script-macro% name () (list `',expansion) :symbol-macro-p t) nil) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; objects (define-ps-special-form create (expecting &rest args) (declare (ignore expecting)) (list 'js-object (loop for (name val) on args by #'cddr collecting (let ((name-expr (compile-parenscript-form name :expecting :expression))) (assert (or (stringp name-expr) (numberp name-expr) (and (listp name-expr) (or (eql 'js-variable (car name-expr)) (eql 'script-quote (car name-expr))))) () "Slot ~s is not one of js-variable, keyword, string or number." name-expr) (list name-expr (compile-parenscript-form val :expecting :expression)))))) (define-ps-special-form %js-slot-value (expecting obj slot) (declare (ignore expecting)) (if (ps::ps-macroexpand slot) (list 'js-slot-value (compile-parenscript-form obj :expecting :expression) (compile-parenscript-form slot)) (compile-parenscript-form obj :expecting :expression))) (define-ps-special-form instanceof (expecting value type) (declare (ignore expecting)) (list 'js-instanceof (compile-parenscript-form value :expecting :expression) (compile-parenscript-form type :expecting :expression))) (defpsmacro slot-value (obj &rest slots) (if (null (rest slots)) `(%js-slot-value ,obj ,(first slots)) `(slot-value (slot-value ,obj ,(first slots)) ,@(rest slots)))) (defpsmacro with-slots (slots object &rest body) (flet ((slot-var (slot) (if (listp slot) (first slot) slot)) (slot-symbol (slot) (if (listp slot) (second slot) slot))) `(symbol-macrolet ,(mapcar #'(lambda (slot) `(,(slot-var slot) (slot-value ,object ',(slot-symbol slot)))) slots) ,@body))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; assignment and binding (defun assignment-op (op) (case op (+ '+=) (~ '~=) (\& '\&=) (\| '\|=) (- '-=) (* '*=) (% '%=) (>> '>>=) (^ '^=) (<< '<<=) (>>> '>>>=) (/ '/=) (t nil))) (defun smart-setf (lhs rhs) (if (and (listp rhs) (eql 'operator (car rhs)) (member lhs (third rhs) :test #'equalp)) (let ((args-without (remove lhs (third rhs) :count 1 :test #'equalp)) (args-without-first (remove lhs (third rhs) :count 1 :end 1 :test #'equalp))) (cond ((and (equal (car args-without) 1) (eql (second rhs) '+)) (list 'unary-operator "++" lhs :prefix nil)) ((and (equal (second args-without-first) 1) (eql (second rhs) '-)) (list 'unary-operator "--" lhs :prefix nil)) ((and (assignment-op (second rhs)) (member (second rhs) '(+ *)) (equalp lhs (first (third rhs)))) (list 'operator (assignment-op (second rhs)) (list lhs (list 'operator (second rhs) args-without-first)))) ((and (assignment-op (second rhs)) (equalp (first (third rhs)) lhs)) (list 'operator (assignment-op (second rhs)) (list lhs (list 'operator (second rhs) (cdr (third rhs)))))) (t (list 'js-assign lhs rhs)))) (list 'js-assign lhs rhs))) (define-ps-special-form setf1% (expecting lhs rhs) (declare (ignore expecting)) (smart-setf (compile-parenscript-form lhs :expecting :expression) (compile-parenscript-form rhs :expecting :expression))) (defpsmacro setf (&rest args) (flet ((process-setf-clause (place value-form) (if (and (listp place) (get-macro-spec (car place) *script-setf-expanders*)) (funcall (get-macro-spec (car place) *script-setf-expanders*) (cdr place) value-form) (let ((exp-place (ps-macroexpand place))) (if (and (listp exp-place) (get-macro-spec (car exp-place) *script-setf-expanders*)) (funcall (get-macro-spec (car exp-place) *script-setf-expanders*) (cdr exp-place) value-form) `(setf1% ,exp-place ,value-form)))))) (assert (evenp (length args)) () "~s does not have an even number of arguments." (cons 'setf args)) `(progn ,@(loop for (place value) on args by #'cddr collect (process-setf-clause place value))))) (define-ps-special-form defvar (expecting name &rest value) (declare (ignore expecting)) (append (list 'js-defvar name) (when value (assert (= (length value) 1) () "Wrong number of arguments to defvar: ~s" `(defvar ,name ,@value)) (list (compile-parenscript-form (car value) :expecting :expression))))) (defpsmacro lexical-let (bindings &body body) "A let form that does actual lexical binding of variables. This is currently expensive in JavaScript since we have to cons up and call a lambda." `((lambda () (let ((new-context (new *object))) ,@(loop for binding in bindings collect `(setf (slot-value new-context ,(symbol-to-js (if (atom binding) binding (first binding)))) ,(when (listp binding) (second binding)))) (with new-context ,@body))))) (define-ps-special-form let (expecting bindings &rest body) (ecase expecting (:statement (let ((defvars (mapcar (lambda (binding) (if (atom binding) `(defvar ,binding) `(defvar ,@binding))) bindings))) (compile-parenscript-form `(progn ,@defvars ,@body) :expecting :statement))) (:expression (let ((declared-variables (mapcar (lambda (binding) (if (atom binding) binding (car binding))) bindings)) (variable-assignments (loop for b in bindings when (listp b) collect (cons 'setf b)))) (setf *enclosing-lexical-block-declarations* (append declared-variables *enclosing-lexical-block-declarations*)) (compile-parenscript-form `(progn ,@variable-assignments ,@body) :expecting :expression))))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; iteration (defun make-for-vars (decls) (loop for decl in decls for var = (if (atom decl) decl (first decl)) for init-value = (if (atom decl) nil (second decl)) collect (cons (compile-parenscript-form var :expecting :symbol) (compile-parenscript-form init-value)))) (defun make-for-steps (decls) (loop for decl in decls when (= (length decl) 3) collect (compile-parenscript-form (third decl) :expecting :expression))) (define-ps-special-form do (expecting decls termination-test &rest body) (declare (ignore expecting)) (let ((vars (make-for-vars decls)) (steps (make-for-steps decls)) (test (compile-parenscript-form `(not ,(first termination-test)) :expecting :expression)) (body (compile-parenscript-form `(progn ,@body)))) (list 'js-for vars steps test body))) (define-ps-special-form doeach (expecting decl &rest body) (declare (ignore expecting)) (list 'js-for-each (first decl) (compile-parenscript-form (second decl) :expecting :expression) (compile-parenscript-form `(progn ,@body)))) (define-ps-special-form while (expecting test &rest body) (declare (ignore expecting)) (list 'js-while (compile-parenscript-form test :expecting :expression) (compile-parenscript-form `(progn ,@body)))) (defpsmacro dotimes (iter &rest body) (let ((var (first iter)) (times (second iter))) `(do ((,var 0 (1+ ,var))) ((>= ,var ,times)) ,@body))) (defpsmacro dolist (i-array &rest body) (let ((var (first i-array)) (array (second i-array)) (arrvar (ps-gensym "tmp-arr")) (idx (ps-gensym "tmp-i"))) `(let ((,arrvar ,array)) (do ((,idx 0 (1+ ,idx))) ((>= ,idx (slot-value ,arrvar 'length))) (let ((,var (aref ,arrvar ,idx))) ,@body))))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; misc (define-ps-special-form with (expecting expression &rest body) (declare (ignore expecting)) (list 'js-with (compile-parenscript-form expression :expecting :expression) (compile-parenscript-form `(progn ,@body)))) (define-ps-special-form try (expecting form &rest clauses) (declare (ignore expecting)) (let ((catch (cdr (assoc :catch clauses))) (finally (cdr (assoc :finally clauses)))) (assert (not (cdar catch)) nil "Sorry, currently only simple catch forms are supported.") (assert (or catch finally) () "Try form should have either a catch or a finally clause or both.") (list 'js-try (compile-parenscript-form `(progn ,form)) :catch (when catch (list (compile-parenscript-form (caar catch) :expecting :symbol) (compile-parenscript-form `(progn ,@(cdr catch))))) :finally (when finally (compile-parenscript-form `(progn ,@finally)))))) (define-ps-special-form cc-if (expecting test &rest body) (declare (ignore expecting)) (list 'cc-if test (mapcar #'compile-parenscript-form body))) (define-ps-special-form regex (expecting regex) (declare (ignore expecting)) (list 'js-regex (string regex))) (defpsmacro lisp (&body forms) "Evaluates the given forms in Common Lisp at ParenScript macro-expansion time. The value of the last form is treated as a ParenScript expression and is inserted into the generated Javascript \(use nil for no-op)." (eval (cons 'progn forms))) (defpsmacro dynamic-bind (bindings &body body) `(macrolet ((dynamic-bind ((var expr) body) (with-ps-gensyms (temp) `(progn (defvar ,temp nil) (try (progn (setf ,temp ,var) (setf ,var ,expr) ,@body) (:finally (setf ,var ,temp))))))) ,(cons 'progn (wrap-expr bindings body))))