(defpackage "SB-EVAL2" (:use "COMMON-LISP") (:shadow "EVAL" "LOAD") (:export "EVAL" "LOAD")) (in-package "SB-EVAL2") #+(or) (setq SB-EXT:*EVALUATOR-MODE* :interpret) (defvar *stack*) (defvar *fp*) (defvar *sp*) (deftype stack () 'simple-vector) (defstruct (environment (:constructor make-environment (parent &optional (size 0) &aux (data (make-array (list size)))))) (parent nil :type (or null environment)) (data nil :type simple-vector)) (defun make-null-environment () (make-environment nil 0)) (defclass lexical () ((name :accessor lexical-name :initarg :name :type (or symbol list)))) (defclass env-lexical (lexical) ((offset :accessor lexical-offset :initarg :offset :type fixnum) (nesting :accessor lexical-nesting :initarg :nesting :type fixnum))) (defclass stack-lexical (lexical) ((offset :accessor lexical-offset :initarg :offset :type fixnum) (nesting :accessor lexical-nesting :initarg :nesting :type fixnum))) (defun make-stack-lexical (name offset &optional (nesting -1)) (make-instance 'stack-lexical :name name :offset offset :nesting nesting)) (defun make-env-lexical (name offset &optional (nesting -1)) (make-instance 'env-lexical :name name :offset offset :nesting nesting)) (defmethod lexical-with-nesting ((lexical stack-lexical) nesting) (make-stack-lexical (lexical-name lexical) (lexical-offset lexical) nesting)) (defmethod lexical-with-nesting ((lexical env-lexical) nesting) (make-env-lexical (lexical-name lexical) (lexical-offset lexical) nesting)) (defun maybe-references-p (form vars) ;; Use `(function ,name) for local functions. ;; ;; FIXME: This doesn't do macro expansion, so it's probably ;; incorrect. (typecase form (symbol (member form vars :test #'equal)) (cons (destructuring-bind (a . b) form (or (maybe-references-p a vars) (maybe-references-p b vars)))) (t nil))) (defun maybe-closes-over-p (form vars) ;; Use `(function ,name) for local functions. ;; ;; NOTE: This is a *very* simplistic algorithm with a *lot* of false ;; positives. ;; ;; FIXME: This doesn't do macro expansion, so it's probably ;; incorrect. (typecase form (symbol nil) (cons (destructuring-bind (a . b) form (case a ((lambda) (maybe-references-p form vars)) ((flet labels) (typecase b (cons (destructuring-bind (bindings . rest) form (or (maybe-references-p bindings vars) (maybe-closes-over-p rest vars)))) (t (maybe-closes-over-p b vars))))))) (t nil))) (defstruct (box (:constructor make-box (value))) value) (defun unbox (box) (box-value box)) (defstruct (context (:constructor make-context (&optional parent))) parent (env-hop nil :type boolean) (stack-hop nil :type boolean) (block-tags nil :type list) (go-tags nil :type list) (symbol-macros nil :type list) (macros nil :type list) (lexicals nil :type list)) (defun make-null-context () (make-context nil)) (defun context-add-block-tag (context block tag) (let ((new-context (make-context context))) (with-slots (block-tags) new-context (setq block-tags (acons block tag block-tags))) new-context)) (defun context-block-tag (context block) (let ((parent (context-parent context))) (or (cdr (assoc (the symbol block) (context-block-tags context))) (and parent (context-block-tag parent block))))) (defun context-add-go-tags (context new-go-tags catch-tag) (let ((new-context (make-context context))) (with-slots (go-tags) new-context (dolist (new-go-tag new-go-tags) (setq go-tags (acons new-go-tag catch-tag go-tags)))) new-context)) (defun context-find-go-tag (context go-tag) (let ((parent (context-parent context))) (or (cdr (assoc (the symbol go-tag) (context-go-tags context))) (and parent (context-find-go-tag parent go-tag))))) (defun context-find-symbol-macro (context symmac) (let ((parent (context-parent context))) (or (cdr (assoc (the symbol symmac) (context-symbol-macros context))) (and parent (context-find-symbol-macro parent symmac))))) (defun context-find-macro (context mac) (let ((parent (context-parent context))) (or (cdr (assoc (the (or symbol list) mac) (context-macros context) :test #'equal)) (and parent (context-find-macro parent mac))))) (defun context-add-symbol-macros (context bindings) (let ((new-context (make-context context))) (with-slots (symbol-macros) new-context (setq symbol-macros (append bindings symbol-macros))) new-context)) (defun context-add-macros (context bindings) (let ((new-context (make-context context))) (with-slots (macros) new-context (setq macros (append bindings macros))) new-context)) (defun parse-tagbody-tags-and-bodies (forms) (let ((next-form (gensym)) (finishp nil)) (loop until finishp collect (let ((tag next-form) (forms (loop until (symbolp (setq next-form (pop forms))) collect next-form))) (unless forms (setq finishp t)) (cons tag forms))))) (defun context-var-lexical-p (context var) (context-find-lexical context var)) (defun context-add-env-lexicals (context vars) ;; open a new variable context (let ((new-context (make-context context))) (with-slots (lexicals env-hop) new-context (setq env-hop t) (setq lexicals (loop for i fixnum from 0 for v in vars collect (make-env-lexical v i)))) new-context)) (defun context-add-stack-lexicals (context vars) ;; open a new variable context (let ((new-context (make-context context))) (with-slots (lexicals stack-hop) new-context (setq stack-hop t) (setq lexicals (loop for i fixnum from 0 for v in vars collect (make-stack-lexical v i)))) new-context)) (defun context-add-env-functions (context fs) (context-add-env-lexicals context (mapcar (lambda (x) `(function ,x)) fs))) (defun context-add-stack-functions (context fs) (context-add-stack-lexicals context (mapcar (lambda (x) `(function ,x)) fs))) (defun context-find-lexical (context var) (loop with env-level = 0 with stack-level = 0 until (null context) for record = (find var (context-lexicals context) :key #'lexical-name :test #'equal) when record do (return (etypecase record (env-lexical (lexical-with-nesting record env-level)) (stack-lexical (lexical-with-nesting record stack-level)))) when (context-env-hop context) do (incf env-level) when (context-stack-hop context) do (incf stack-level) do (setq context (context-parent context)))) (deftype eval-closure () `(function (environment) *)) (declaim (inline environment-value)) (defun environment-value (env nesting offset) (dotimes (i (the fixnum nesting)) (setq env (environment-parent env))) (svref (environment-data env) offset)) (declaim (inline (setf environment-value))) (defun (setf environment-value) (val env nesting offset) (dotimes (i (the fixnum nesting)) (setq env (environment-parent env))) (setf (svref (environment-data env) offset) val)) (defmacro with-stack (() &body body) `(call-with-stack (lambda () ,@body))) (declaim (inline call-with-stack)) (defun call-with-stack (thunk) (let ((*stack* (make-array '(10000))) (*fp* 0) (*sp* 0)) (funcall thunk))) (defmacro with-stack-frame (nvars &body body) `(call-with-stack-frame ,nvars (lambda () ,@body))) (declaim (ftype (function (fixnum function) *) really-call-with-stack-frame) (inline really-call-with-stack-frame)) (defun really-call-with-stack-frame (nvars thunk) (let* ((stack *stack*) (sp *sp*) (new-size (+ sp nvars 1))) (declare (type stack stack) (type fixnum sp new-size)) (loop for size fixnum = (array-dimension stack 0) while (< size new-size) do (setq stack (adjust-array stack (list (the fixnum (+ new-size (the fixnum (round (* size 1.5)))))))) (setq *stack* stack)) (setf (aref stack sp) (the fixnum *fp*)) (let ((*fp* sp) (*sp* new-size)) (funcall thunk)))) (declaim (ftype (function (fixnum function) *) call-with-stack-frame) (inline call-with-stack-frame)) (defun call-with-stack-frame (nvars thunk) (if (boundp '*stack*) (really-call-with-stack-frame nvars thunk) (with-stack () (really-call-with-stack-frame nvars thunk)))) (declaim (ftype (function (fixnum) *) deref-stack) (inline deref-stack)) (defun deref-stack (pos) (aref (the stack *stack*) pos)) (declaim (ftype (function (fixnum fixnum) *) stack-ref) (inline stack-ref)) (defun stack-ref (nesting offset) (let ((pos (the fixnum *fp*))) (dotimes (i nesting) (setq pos (the fixnum (deref-stack pos)))) (aref (the stack *stack*) (the fixnum (+ 1 offset pos))))) (declaim (ftype (function (* fixnum fixnum) *) (setf stack-ref)) (inline (setf stack-ref))) (defun (setf stack-ref) (val nesting offset) (let ((pos *fp*)) (declare (type fixnum pos)) (dotimes (i nesting) (setq pos (deref-stack pos))) (setf (aref (the stack *stack*) (the fixnum (+ 1 offset pos))) val))) (declaim (ftype (function (symbol context) eval-closure) prepare-ref)) (defun prepare-ref (var context) (if (context-var-lexical-p context var) (let* ((lexical (context-find-lexical context var)) (nesting (lexical-nesting lexical)) (offset (lexical-offset lexical))) (etypecase lexical (env-lexical (lambda (env) (environment-value env nesting offset))) (stack-lexical (lambda (env) (declare (ignore env)) (stack-ref nesting offset))))) (lambda (env) (declare (ignore env)) (symbol-value var)))) (declaim (ftype (function ((or symbol list) context) eval-closure) prepare-function-ref)) (defun prepare-function-ref (function-name context) (if (context-var-lexical-p context `(function ,function-name)) (let* ((lexical (context-find-lexical context `(function ,function-name))) (nesting (lexical-nesting lexical)) (offset (lexical-offset lexical))) (lambda (env) (environment-value env nesting offset))) (lambda (env) (declare (ignore env)) (fdefinition function-name)))) (declaim (ftype (function (context (or symbol list)) *) context-find-function)) (defun context-find-function (context f) (context-find-lexical context `(function ,f))) (declaim (ftype (function (context (or symbol list)) *) local-function-p)) (defun local-function-p (context f) (context-find-function context f)) (declaim (ftype (function () eval-closure) prepare-nil)) (defun prepare-nil () (lambda (env) (declare (ignore env)))) (defmacro specialize (&environment env var value possible-values &body body) `(ecase ,value ,@(loop for x in (sb-int:eval-in-lexenv possible-values env) collect `((,x) ,(sb-int:eval-in-lexenv `(let ((,var ,x)) ,@body) env))))) (declaim (ftype (function ((or symbol list) list context) eval-closure) prepare-local-call)) (defun prepare-local-call (f args context) (let* ((args* (mapcar (lambda (form) (prepare-form form context)) args)) (flex (context-find-function context f)) (offset (lexical-offset flex)) (nesting (lexical-nesting flex))) (if (< (length args) 20) (specialize m% (length args) (loop for i from 0 below 20 collect i) (let ((argvars (loop for i from 0 below m% collect (gensym (format nil "ARG~D-" i))))) `(let ,(loop for var in argvars for i from 0 below m% collect `(,var (nth ,i args*))) (lambda (env) (funcall (the function (environment-value env nesting offset)) ,@(loop for var in argvars collect `(funcall (the eval-closure ,var) env))))))) (lambda (env) (apply (the function (environment-value env nesting offset)) (mapcar (lambda (x) (funcall (the eval-closure x) env)) args*)))))) (declaim (ftype (function ((or symbol list) list context) eval-closure) prepare-global-call)) (defun prepare-global-call (f args context) (let ((args* (mapcar (lambda (form) (prepare-form form context)) args))) (if (< (length args) 20) (specialize m% (length args) (loop for i from 0 below 20 collect i) (let ((argvars (loop for i from 0 below m% collect (gensym (format nil "ARG~D-" i))))) `(let ,(loop for var in argvars for i from 0 below m% collect `(,var (nth ,i args*))) (if (fboundp f) (let ((f* (fdefinition f))) (lambda (env) (declare (ignorable env)) (funcall f* ,@(loop for var in argvars collect `(funcall (the eval-closure ,var) env))))) (lambda (env) (declare (ignorable env)) (funcall (fdefinition f) ,@(loop for var in argvars collect `(funcall (the eval-closure ,var) env)))))))) (if (fboundp f) (let ((f* (fdefinition f))) (lambda (env) (apply f* (mapcar (lambda (x) (funcall (the eval-closure x) env)) args*)))) (lambda (env) (apply (fdefinition f) (mapcar (lambda (x) (funcall (the eval-closure x) env)) args*))))))) (declaim (ftype (function (eval-closure list context) eval-closure) prepare-direct-call)) (defun prepare-direct-call (f args context) (let ((args* (mapcar (lambda (form) (prepare-form form context)) args))) (lambda (env) (apply (the (or symbol function) (funcall (the eval-closure f) env)) (mapcar (lambda (x) (funcall (the eval-closure x) env)) args*))))) (declaim (ftype (function (list context) eval-closure) prepare-progn)) (defun prepare-progn (forms context) (let ((body* (mapcar (lambda (form) (prepare-form form context)) forms))) (lambda (env) (let (result) (dolist (form* body* result) (setq result (funcall (the eval-closure form*) env))))))) #+ (or) (if (maybe-closes-over-p `(progn ,@body) vars) (let* ((new-context (context-add-env-lexicals context (mapcar #'first bindings*))) (body* (prepare-progn body new-context))) (lambda (env) (let ((new-env (make-environment env n))) (loop for i from 0 below n for val* in values* do (setf (environment-value new-env 0 i) (funcall (the eval-closure val*) env))) (funcall body* new-env)))) (let* ((new-context (context-add-stack-lexicals context (mapcar #'first bindings*))) (body* (prepare-progn body new-context))) (lambda (env) (with-stack-frame n (loop for i from 0 below n for val* in values* do (setf (stack-ref i) (funcall (the eval-closure val*) env))) (funcall body* env))))) (declaim (ftype (function (list context) eval-closure) prepare-lambda)) (defun prepare-lambda (lambda-form context) (destructuring-bind (lambda-list &rest body) lambda-form ;; FIXME: SPECIAL declarations! (multiple-value-bind (required optional restp rest keyp keys allowp auxp aux morep more-context more-count) (sb-int:parse-lambda-list lambda-list) (declare (ignorable required optional restp rest keyp keys allowp auxp aux morep more-context more-count)) (let* ((argvars lambda-list) ;fixme (n (length (the list lambda-list)))) (if (maybe-closes-over-p `(progn ,@body) argvars) (let* ((new-context (context-add-env-lexicals context argvars)) (body* (prepare-progn body new-context))) (lambda (env) (lambda (&rest args) (declare (dynamic-extent args)) ;; FIXME: non-simple lambda-lists (let ((new-env (make-environment env n))) (loop for i from 0 to n for val in args do (setf (environment-value new-env 0 i) val)) (funcall body* new-env))))) (let* ((new-context (context-add-stack-lexicals context argvars)) (body* (prepare-progn body new-context))) (lambda (env) (lambda (&rest args) (declare (dynamic-extent args)) ;; FIXME: non-simple lambda-lists (with-stack-frame n (loop for i from 0 below n for val in args do (setf (stack-ref 0 i) val)) (funcall body* env)))))))))) (defun context->native-environment (context) ;;FIXME (declare (ignore context)) (sb-c::internal-make-lexenv nil nil nil nil nil nil nil nil nil nil nil)) (declaim (ftype (function (* &optional context) eval-closure) prepare-form)) (defun prepare-form (form &optional (context (make-null-context))) ;;(declare (optimize speed (safety 0) (space 1) (debug 0))) ;;(print form) (values (cond ((sb-int:self-evaluating-p form) (lambda (env) (declare (ignore env)) form)) (t (etypecase form (symbol (let ((macro? (context-find-symbol-macro context form))) (if macro? (funcall (the function (cdr macro?))) (prepare-ref form context)))) (cons (case (first form) ((if) (destructuring-bind (a b &optional c) (rest form) (let ((a* (prepare-form a context)) (b* (prepare-form b context)) (c* (prepare-form c context))) (lambda (env) (if (funcall a* env) (funcall b* env) (funcall c* env)))))) ((function) (let ((fun-form (second form))) (etypecase fun-form (symbol (prepare-function-ref fun-form context)) (cons (ecase (first fun-form) ((lambda) (prepare-lambda (rest fun-form) context)) ((sb-int:named-lambda) (prepare-lambda (cddr fun-form) context)) ((setf) (prepare-function-ref fun-form context))))))) ((lambda) (prepare-lambda (rest form) context)) ((setq) (let ((binding-forms (rest form))) (let ((bindings (loop for (var valform) on binding-forms by #'cddr collect var collect (context-find-lexical context var) collect (prepare-form valform context)))) (lambda (env) (loop for (var lexical? val*) on bindings by #'cdddr for value = (funcall (the eval-closure val*) env) for result = (progn (check-type var symbol) (etypecase lexical? ; XXX could lift the ; case distinction ; out of the lambda (env-lexical (setf (environment-value env (lexical-nesting lexical?) (lexical-offset lexical?)) value)) (stack-lexical (setf (stack-ref (lexical-nesting lexical?) (lexical-offset lexical?)) value)) (null (setf (symbol-value var) value)))) finally (return result)))))) ((catch) (destructuring-bind (tag &body body) (rest form) (let ((tag* (prepare-form tag context)) (body* (prepare-progn body context))) (lambda (env) (catch (funcall tag* env) (funcall body* env)))))) ((block) (destructuring-bind (name &body body) (rest form) (let* ((tag (gensym (concatenate 'string "BLOCK-" (symbol-name name)))) (body* (prepare-progn body (context-add-block-tag context name tag)))) (lambda (env) (catch tag (funcall body* env)))))) ((declare) ;;FIXME (prepare-nil)) ((eval-when) (destructuring-bind ((&rest times) &body body) (rest form) (if (or (member :load-toplevel times) (member :execute times) (member 'load times) (member 'eval times)) (prepare-progn body context) (prepare-nil)))) ((flet) (destructuring-bind (bindings &rest body) (rest form) (let* ((bindings* (mapcar (lambda (form) (if (listp form) (cons (first form) (prepare-lambda (rest form) context)) (cons form (prepare-nil)))) bindings)) (new-context (context-add-env-functions context (mapcar #'first bindings*))) (functions (mapcar #'cdr bindings*)) (n (length functions)) (body* (prepare-progn body new-context))) (lambda (env) (let ((new-env (make-environment env n))) (loop for i from 0 to n for f in functions do (setf (environment-value new-env 0 i) (funcall (the eval-closure f) env))) (funcall body* new-env)))))) ((labels) (destructuring-bind (bindings &rest body) (rest form) (let* ((new-context (context-add-env-functions context (mapcar #'first bindings))) (bindings* (mapcar (lambda (form) (if (listp form) (cons (first form) (prepare-lambda (rest form) new-context)) (cons form (prepare-nil)))) bindings)) (functions (mapcar #'cdr bindings*)) (n (length functions)) (body* (prepare-progn body new-context))) (lambda (env) (let ((new-env (make-environment env n))) (loop for i from 0 to n for f in functions do (setf (environment-value new-env 0 i) (funcall (the eval-closure f) new-env))) (funcall body* new-env)))))) ((let) ;; FIXME: SPECIAL declarations! (destructuring-bind (bindings &rest body) (rest form) (let* ((bindings* (mapcar (lambda (form) (if (listp form) (cons (first form) (prepare-form (second form) context)) (cons form (prepare-nil)))) bindings)) (n (length bindings*)) (values* (mapcar #'cdr bindings*)) (vars (mapcar #'car bindings*))) (if (maybe-closes-over-p `(progn ,@body) vars) (let* ((new-context (context-add-env-lexicals context (mapcar #'first bindings*))) (body* (prepare-progn body new-context))) (lambda (env) (let ((new-env (make-environment env n))) (loop for i from 0 below n for val* in values* do (setf (environment-value new-env 0 i) (funcall (the eval-closure val*) env))) (funcall body* new-env)))) (let* ((new-context (context-add-stack-lexicals context (mapcar #'first bindings*))) (body* (prepare-progn body new-context))) (lambda (env) (with-stack-frame n (loop for i from 0 below n for val* in values* do (setf (stack-ref 0 i) (funcall (the eval-closure val*) env))) (funcall body* env)))))))) ((let*) ;; FIXME: SPECIAL declarations! (destructuring-bind (bindings &rest body) (rest form) (labels ((prepare-let* (bindings context) (the (values eval-closure &rest nil) (if (endp bindings) (prepare-progn body context) (destructuring-bind (binding . rest-bindings) bindings (let* ((var (if (listp binding) (first binding) binding)) (val (if (listp binding) (prepare-form (second binding) context) (prepare-nil))) (new-context (context-add-env-lexicals context (list var))) (more (prepare-let* rest-bindings new-context))) (lambda (env) (let ((new-env (make-environment env 1))) (setf (environment-value new-env 0 0) (funcall val env)) (funcall more new-env))))))))) (prepare-let* bindings context)))) ((locally) (prepare-nil)) ((multiple-value-call) (destructuring-bind (f &rest argforms) (rest form) (let ((f* (prepare-form f context)) (argforms* (mapcar (lambda (x) (prepare-form x context)) argforms))) (lambda (env) (apply f* (mapcan (lambda (arg) (multiple-value-list (funcall arg env))) argforms*)))))) ((multiple-value-prog1) (destructuring-bind (values-form &body body) (rest form) (let ((values-form* (prepare-form values-form context)) (body* (prepare-progn body context))) (lambda (env) (multiple-value-prog1 (funcall values-form* env) (funcall body* env)))))) ((multiple-value-setq) (destructuring-bind (vars values-form) (rest form) (let ((values-form* (prepare-form values-form context)) (lexicals (mapcar (lambda (v) (context-find-lexical context v)) vars))) (lambda (env) (let* ((values (multiple-value-list (funcall values-form* env))) (primary-value (first values))) (loop for lexical? in lexicals for value in values for var in vars do (if lexical? (setf (environment-value env (lexical-nesting lexical?) (lexical-offset lexical?)) value) (setf (symbol-value var) value))) primary-value))))) ((multiple-value-bind) ;; FIXME: SPECIAL declarations! (destructuring-bind (vars value-form &body body) (rest form) (let* ((value-form* (prepare-form value-form context)) (n (length (the list vars))) (new-context (context-add-env-lexicals context vars)) (body* (prepare-progn body new-context))) (lambda (env) (let* ((new-env (make-environment env n)) (values (multiple-value-list (funcall value-form* env)))) (dotimes (i n) (setf (environment-value new-env 0 i) (pop values))) (funcall body* new-env)))))) ((progn) (prepare-progn (rest form) context)) ((progv) (destructuring-bind (vals vars &body body) (rest form) (let ((vals* (prepare-form vals context)) (vars* (prepare-form vars context)) (body* (prepare-progn body context))) (lambda (env) (progv (funcall vals* env) (funcall vars* env) (funcall body* env)))))) ((quote) (let ((quoted-object (cadr form))) (lambda (env) (declare (ignore env)) quoted-object))) ((return-from) (destructuring-bind (name &optional value) (rest form) (let ((value* (prepare-form value context)) (tag (context-block-tag context name))) (lambda (env) (throw tag (funcall value* env)))))) ((the) (prepare-form (third form) context)) ((throw) (destructuring-bind (tag result) (rest form) (let ((tag* (prepare-form tag context)) (result* (prepare-form result context))) (lambda (env) (throw (funcall tag* env) (funcall result* env)))))) ((unwind-protect) (destructuring-bind (protected &body body) (rest form) (let ((protected* (prepare-form protected context)) (body* (prepare-progn body context))) (lambda (env) (unwind-protect (funcall protected* env) (funcall body* env)))))) ((sb-ext:truly-the) (prepare-form (third form) context)) ((sb-int:named-lambda) (prepare-lambda (cddr form) context)) ((symbol-macrolet) (destructuring-bind (bindings &rest body) (rest form) (let ((bindings (mapcar (lambda (form) (cons (first form) (second form))) bindings))) (prepare-progn body (context-add-symbol-macros context bindings))))) ((macrolet) ;; FIXME: This doesn't actually work because we disregard ;; the lambda list when calling the macro. (destructuring-bind (bindings &rest body) (rest form) (let ((bindings (mapcar (lambda (form) (cons (first form) (funcall (prepare-lambda (rest form) context) (make-null-environment)))) bindings))) (prepare-progn body (context-add-macros context bindings))))) ((go) (let* ((go-tag (second form)) (catch-tag (context-find-go-tag context go-tag))) (lambda (env) (declare (ignore env)) (throw catch-tag go-tag)))) ((tagbody) ;; 1. set up catch handler ;; 2. save go-tag -> tagbody-catch-tag mapping (let* ((jump (gensym "JUMP")) (tags-and-bodies (parse-tagbody-tags-and-bodies (rest form))) (new-context (context-add-go-tags context (mapcar #'car tags-and-bodies) jump)) (tags-and-bodies* (mapcar (lambda (x) (destructuring-bind (tag . body) x (cons tag (prepare-progn body new-context)))) tags-and-bodies))) (lambda (env) (block tagbody-loop (let ((code tags-and-bodies*)) (loop (setq code (member (catch jump (dolist (tag-and-body* code) (funcall (the eval-closure (cdr tag-and-body*)) env)) (return-from tagbody-loop)) tags-and-bodies* :key #'car)) (unless code (return-from tagbody-loop))))) nil))) (otherwise ;; FIXME: Handle SETF expanders? (destructuring-bind (f . args) form (check-type f (or list symbol)) (let ((local-macro? (context-find-macro context f)) (global-macro? (macro-function f))) (cond (local-macro? (let ((macro-function (cdr local-macro?))) (prepare-form (funcall (the function macro-function) form (context->native-environment context)) context))) (global-macro? (prepare-form (funcall global-macro? form (context->native-environment context)) context)) ((and (listp f) (listp (first f)) (eq 'lambda (first (first f)))) (let ((lambda-fn (prepare-lambda (rest (first f)) context))) (prepare-direct-call lambda-fn args context))) (t (if (local-function-p context f) (prepare-local-call f args context) (prepare-global-call f args context)))))))))))) t)) (defun eval (form) (funcall (prepare-form form) (make-null-environment))) (defun load (filename) ;;FIXME: set :LOAD-TOPLEVEL time. (let ((eof (gensym))) (with-open-file (in filename) (loop for form = (read in nil eof nil) until (eq form eof) do (eval form))))) #+(or) (funcall (prepare-form '(funcall (funcall (lambda (x) (lambda (y z) (setq x (+ x (* y z))) x)) 3) 5 7) (make-null-context)) (make-null-environment))