;;; ;;; JavaScript 2.0 parser ;;; ;;; Waldemar Horwat (waldemar@acm.org) ;;; (declaim (optimize (debug 3))) (defparameter *jw-source* '((line-grammar code-grammar :lr-1 :program) (%subsection :semantics "Errors") (deftag syntax-error) (deftag reference-error) (deftag type-error) (deftag method-not-found-error) (deftype semantic-error (tag syntax-error reference-error type-error method-not-found-error)) (deftag go-break (value object) (label string)) (deftag go-continue (value object) (label string)) (deftag go-return (value object)) (deftag go-throw (value object)) (deftype early-exit (tag go-break go-continue go-return go-throw)) (deftype semantic-exception (union early-exit semantic-error)) (%subsection :semantics "Undefined") (deftag undefined) (deftype undefined (tag undefined)) (%subsection :semantics "Null") (deftag null) (deftype null (tag null)) (%subsection :semantics "Namespaces") (defrecord namespace) (deftype namespace (tag namespace)) (define public-namespace namespace (tag namespace)) (%subsection :semantics "Classes") (defrecord class (superclass class-opt) (globals (vector property) :var) (prototype object :var) (primitive boolean)) (deftype class (tag class)) (deftype class-opt (union null class)) (define object-class class (tag class null (vector-of property) null true)) (define undefined-class class (tag class object-class (vector-of property) null true)) (define null-class class (tag class object-class (vector-of property) null true)) (define boolean-class class (tag class object-class (vector-of property) null true)) (define number-class class (tag class object-class (vector-of property) null true)) (define string-class class (tag class object-class (vector-of property) null false)) (define namespace-class class (tag class object-class (vector-of property) null false)) (define class-class class (tag class object-class (vector-of property) null false)) (%text :comment "Return " (:tag true) " if " (:local c) " is " (:local d) " or a subclass of " (:local d) ".") (define (is-subclass (c class) (d class)) boolean (cond ((= c d class) (return true)) (nil (const b class-opt (& superclass c)) (rwhen (:narrow-false (in (tag null) b)) (return false)) (return (is-subclass b d))))) (%text :comment "Return " (:tag true) " if " (:local c) " is a subclass of " (:local d) " other than " (:local d) " itself.") (define (is-proper-subclass (c class) (d class)) boolean (const b class-opt (& superclass c)) (rwhen (:narrow-false (in (tag null) b)) (return false)) (return (is-subclass b d))) (%subsection :semantics "Structures") (defrecord structure (type class) (slots (vector slot) :var) (properties (vector property) :var)) (deftype structure (tag structure)) (%subsection :semantics "Objects") (deftype object (union undefined null boolean float64 string namespace class structure)) (%text :comment "Return " (:local o) :apostrophe "s most specific type.") (define (object-type (o object)) class (case o (:select undefined (return undefined-class)) (:select null (return null-class)) (:select boolean (return boolean-class)) (:select float64 (return number-class)) (:select string (return string-class)) (:select namespace (return namespace-class)) (:select class (return class-class)) (:narrow structure (return (& type o))))) (%text :comment "Return " (:tag true) " if " (:local o) " is an instance of class " (:local c) ". Consider " (:tag null) " to be an instance of the classes " (:character-literal "Null") " and " (:character-literal "Object") " only.") (define (instance-of (o object) (c class)) boolean (return (is-subclass (object-type o) c))) (%text :comment "Return " (:tag true) " if " (:local o) " is an instance of class " (:local c) ". Consider " (:tag null) " to be an instance of the classes " (:character-literal "Null") ", " (:character-literal "Object") ", and all other non-primitive classes.") (define (member-of (o object) (c class)) boolean (const t class (object-type o)) (return (or (is-subclass t c) (and (= o null object) (not (& primitive c)))))) (define (to-boolean (o object)) boolean (case o (:select (union undefined null) (return false)) (:narrow boolean (return o)) (:narrow float64 (return (not-in (tag +zero -zero nan) o))) (:narrow string (return (/= o "" string))) (:select (union namespace class) (return true)) (:select structure (todo)))) (define (to-number (o object)) float64 (case o (:select undefined (return nan)) (:select (union null false) (return +zero)) (:select true (return 1.0)) (:narrow float64 (return o)) (:select string (todo)) (:select (union namespace class) (throw type-error)) (:select structure (todo)))) (define (to-string (o object)) string (case o (:select undefined (return "undefined")) (:select null (return "null")) (:select false (return "false")) (:select true (return "true")) (:select float64 (todo)) (:narrow string (return o)) (:select namespace (todo)) (:select class (todo)) (:select structure (todo)))) (define (to-primitive (o object) (hint object :unused)) object (case o (:select (union undefined null boolean float64 string) (return o)) (:select (union namespace class structure) (return (to-string o))))) (define (u-int32-to-int32 (i integer)) integer (if (< i (expt 2 31)) (return i) (return (- i (expt 2 32))))) (define (to-u-int32 (x float64)) integer (rwhen (:narrow-false (in (tag +infinity -infinity nan) x)) (return 0)) (return (mod (truncate-float64 x) (expt 2 32)))) (define (to-int32 (x float64)) integer (return (u-int32-to-int32 (to-u-int32 x)))) (define (float64-equal (x float64) (y float64)) boolean (return (float64-compare x y false true false false))) (%subsection :semantics "References") (deftag ref) (deftype ref (tag ref)) (deftype reference (union object ref)) (%text :comment "Read the " (:type reference) ".") (define (read-reference (r reference)) object (case r (:narrow object (return r)) (:select ref (todo)))) (%text :comment "Write " (:local v) " into the " (:type reference) " " (:local r) ".") (define (write-reference (r reference) (v object :unused)) void (case r (:select object (throw reference-error)) (:select ref (todo)))) (%subsection :semantics "Slots") (defrecord slot-id) (deftype slot-id (tag slot-id)) (defrecord slot (id slot-id) (type class) (value object :var)) (deftype slot (tag slot)) (define (find-slot (id slot-id) (slots (vector slot))) slot (const matching-slots (vector slot) (map slots s s (= (& id s) id slot-id))) (assert (= (length matching-slots) 1)) (return (nth matching-slots 0))) (%subsection :semantics "Properties") (deftag property (name qualified-name) (getter accessor-info) (setter accessor-info) (fixed boolean) (enumerable boolean) (deletable boolean)) (deftype property (tag property)) (deftag qualified-name (namespace namespace) (name string)) (deftype qualified-name (tag qualified-name)) (define (find-property (n qualified-name) (properties (vector property))) (vector property) (return (map properties p p (= n (& name p) qualified-name)))) (%subsection :semantics "Accessors") (deftag inaccessible-accessor) (deftag abstract-accessor) (deftag constant-accessor (value object)) (deftag slot-accessor (id slot-id)) (deftag indirect-accessor (f object)) (deftag alias-accessor (name qualified-name)) (deftype accessor (tag inaccessible-accessor abstract-accessor constant-accessor slot-accessor indirect-accessor alias-accessor)) (deftag accessor-info (self-type class) (final boolean) (accessor accessor)) (deftype accessor-info (tag accessor-info)) (%subsection :semantics "Binary Operators") (deftag bin-op-method (left-type class) (right-type class) (op (-> (object object) object))) (deftype bin-op-method (tag bin-op-method)) (defrecord binary-operator (methods (vector bin-op-method) :var)) (deftype binary-operator (tag binary-operator)) (%text :comment "Return " (:tag true) " if " (:local m1) " is at least as specific as " (:local m2) ".") (define (is-bin-op-subclass (m1 bin-op-method) (m2 bin-op-method)) boolean (return (and (is-subclass (& left-type m1) (& left-type m2)) (is-subclass (& right-type m1) (& right-type m2))))) (define (limited-instance-of (v object) (c class) (limit class-opt)) boolean (if (instance-of v c) (if (:narrow-false (in (tag null) limit)) (return true) (return (is-proper-subclass limit c))) (return false))) (%text :comment "Return a function that takes two " (:type object) " arguments " (:local left) " and " (:local right) " and returns the operator " (:local bin-op) " applied to " (:local left) " and " (:local right) ". If " (:local left-limit) " is a " (:type class) ", restrict the lookup to operator definitions with a superclass of " (:local left-limit) " for the left operand. Similarly, if " (:local right-limit) " is a " (:type class) ", restrict the lookup to operator definitions with a superclass of " (:local right-limit) " for the right operand.") (define (bin-op-eval (bin-op binary-operator) (left-limit class-opt) (right-limit class-opt)) (-> (object object) object) (function (f (left object) (right object)) object (const applicable-ops (vector bin-op-method) (map (& methods bin-op) m m (and (limited-instance-of left (& left-type m) left-limit) (limited-instance-of right (& right-type m) right-limit)))) (const best-ops (vector bin-op-method) (map applicable-ops m m (empty (map applicable-ops m2 m2 (not (is-bin-op-subclass m m2)))))) (rwhen (empty best-ops) (throw method-not-found-error)) (assert (= (length best-ops) 1)) (return ((& op (nth best-ops 0)) left right))) (return f)) (%subsection :semantics "Binary Operator Tables") (define (add-objects (a object) (b object)) object (const ap object (to-primitive a null)) (const bp object (to-primitive b null)) (if (or (in string ap) (in string bp)) (return (append (to-string ap) (to-string bp))) (return (float64-add (to-number ap) (to-number bp))))) (define (subtract-objects (a object) (b object)) object (return (float64-subtract (to-number a) (to-number b)))) (define (multiply-objects (a object) (b object)) object (return (float64-multiply (to-number a) (to-number b)))) (define (divide-objects (a object) (b object)) object (return (float64-divide (to-number a) (to-number b)))) (define (remainder-objects (a object) (b object)) object (return (float64-remainder (to-number a) (to-number b)))) (define (less-objects (a object) (b object)) object (const ap object (to-primitive a null)) (const bp object (to-primitive b null)) (if (:narrow-true (and (in string ap) (in string bp))) (return (< ap bp string)) (return (float64-compare (to-number ap) (to-number bp) true false false false)))) (define (less-or-equal-objects (a object) (b object)) object (const ap object (to-primitive a null)) (const bp object (to-primitive b null)) (if (:narrow-true (and (in string ap) (in string bp))) (return (<= ap bp string)) (return (float64-compare (to-number ap) (to-number bp) true true false false)))) (define (equal-objects (a object) (b object)) object (case a (:select (union undefined null) (return (in (union undefined null) b))) (:narrow boolean (if (:narrow-true (in boolean b)) (return (= a b boolean)) (return (equal-objects (to-number a) b)))) (:narrow float64 (const bp object (to-primitive b null)) (case bp (:select (union undefined null namespace class structure) (return false)) (:select (union boolean string float64) (return (float64-equal a (to-number bp)))))) (:narrow string (const bp object (to-primitive b null)) (case bp (:select (union undefined null namespace class structure) (return false)) (:select (union boolean float64) (return (float64-equal (to-number a) (to-number bp)))) (:narrow string (return (= a bp string))))) (:select (union namespace class structure) (case b (:select (union undefined null) (return false)) (:select (union namespace class structure) (return (strict-equal-objects a b))) (:select (union boolean float64 string) (const ap object (to-primitive a null)) (case ap (:select (union undefined null namespace class structure) (return false)) (:select (union boolean float64 string) (return (equal-objects ap b))))))))) (define (strict-equal-objects (a object) (b object)) object (if (:narrow-true (and (in float64 a) (in float64 b))) (return (float64-equal a b)) (return (= a b object)))) (define (shift-left-objects (a object) (b object)) object (const i integer (to-u-int32 (to-number a))) (const count integer (bitwise-and (to-u-int32 (to-number b)) (hex #x1F))) (return (real-to-float64 (u-int32-to-int32 (bitwise-and (bitwise-shift i count) (hex #xFFFFFFFF)))))) (define (shift-right-objects (a object) (b object)) object (const i integer (to-int32 (to-number a))) (const count integer (bitwise-and (to-u-int32 (to-number b)) (hex #x1F))) (return (real-to-float64 (bitwise-shift i (neg count))))) (define (shift-right-unsigned-objects (a object) (b object)) object (const i integer (to-u-int32 (to-number a))) (const count integer (bitwise-and (to-u-int32 (to-number b)) (hex #x1F))) (return (real-to-float64 (bitwise-shift i (neg count))))) (define (bitwise-and-objects (a object) (b object)) object (const i integer (to-int32 (to-number a))) (const j integer (to-int32 (to-number b))) (return (real-to-float64 (bitwise-and i j)))) (define (bitwise-xor-objects (a object) (b object)) object (const i integer (to-int32 (to-number a))) (const j integer (to-int32 (to-number b))) (return (real-to-float64 (bitwise-xor i j)))) (define (bitwise-or-objects (a object) (b object)) object (const i integer (to-int32 (to-number a))) (const j integer (to-int32 (to-number b))) (return (real-to-float64 (bitwise-or i j)))) (define bin-op-add binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class add-objects)))) (define bin-op-subtract binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class subtract-objects)))) (define bin-op-multiply binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class multiply-objects)))) (define bin-op-divide binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class divide-objects)))) (define bin-op-remainder binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class remainder-objects)))) (define bin-op-less binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class less-objects)))) (define bin-op-less-or-equal binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class less-or-equal-objects)))) (define bin-op-equal binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class equal-objects)))) (define bin-op-strict-equal binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class strict-equal-objects)))) (define bin-op-shift-left binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class shift-left-objects)))) (define bin-op-shift-right binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class shift-right-objects)))) (define bin-op-shift-right-unsigned binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class shift-right-unsigned-objects)))) (define bin-op-bitwise-and binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class bitwise-and-objects)))) (define bin-op-bitwise-xor binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class bitwise-xor-objects)))) (define bin-op-bitwise-or binary-operator (tag binary-operator (vector (tag bin-op-method object-class object-class bitwise-or-objects)))) (%subsection :semantics "Unary Operators") (deftag unary-operator (operand-type class) (op (-> (object) object))) (deftype unary-operator (tag unary-operator)) (define (unary-not (a object)) object (return (not (to-boolean a)))) (%subsection :semantics "Environments") (deftag static-env (enclosing-class class-opt) (labels (vector string)) (can-return boolean) (constants (vector definition))) (deftype static-env (tag static-env)) (define initial-static-env static-env (tag static-env null (vector-of string) false (vector-of definition))) (%text :comment "Return a " (:type static-env) " with label " (:local label) " prepended to " (:local s) ".") (define (add-label (t static-env) (label string)) static-env (return (tag static-env (& enclosing-class t) (append (vector label) (& labels t)) (& can-return t) (& constants t)))) (%text :comment "Return " (:tag true) " if " (:character-literal "super") " is permitted here.") (define (allows-super (s static-env)) boolean (return (/= (& enclosing-class s) null class-opt))) (deftag dynamic-env (parent dynamic-env-opt) (definitions (vector definition))) (deftype dynamic-env (tag dynamic-env)) (deftype dynamic-env-opt (union null dynamic-env)) (%text :comment "If the " (:type dynamic-env) " is from within a class" :apostrophe "s body, return that class; otherwise, return " (:tag null) ".") (define (lexical-class (e dynamic-env :unused)) class-opt (todo)) (define initial-dynamic-env dynamic-env (tag dynamic-env null (vector-of definition))) (deftag definition (name qualified-name) (getter accessor-info) (setter accessor-info)) (deftype definition (tag definition)) (%section "Terminal Actions") (declare-action name $identifier string 1) (declare-action eval $number float64 1) (declare-action eval $string string 1) (terminal-action name $identifier identity) (terminal-action eval $number identity) (terminal-action eval $string identity) (%print-actions) (%section "Expressions") (grammar-argument :beta allow-in no-in) (%subsection "Identifiers") (rule :identifier ((name string)) (production :identifier ($identifier) identifier-identifier (name (name $identifier))) (production :identifier (get) identifier-get (name "get")) (production :identifier (set) identifier-set (name "set")) (production :identifier (exclude) identifier-exclude (name "exclude")) (production :identifier (include) identifier-include (name "include"))) (production :qualifier (:identifier) qualifier-identifier) (production :qualifier (public) qualifier-public) (production :qualifier (private) qualifier-private) ;(production :qualifier (:qualifier \:\: :identifier) qualifier-identifier-qualifier) (production :simple-qualified-identifier (:identifier) simple-qualified-identifier-identifier) (production :simple-qualified-identifier (:qualifier \:\: :identifier) simple-qualified-identifier-qualifier) (production :expression-qualified-identifier (:parenthesized-expression \:\: :identifier) expression-qualified-identifier-identifier) (production :qualified-identifier (:simple-qualified-identifier) qualified-identifier-simple) (production :qualified-identifier (:expression-qualified-identifier) qualified-identifier-expression) (%subsection "Unit Expressions") (production :unit-expression (:parenthesized-list-expression) unit-expression-parenthesized-list-expression) (production :unit-expression ($number :no-line-break $string) unit-expression-number-with-unit) (production :unit-expression (:unit-expression :no-line-break $string) unit-expression-unit-expression-with-unit) (%subsection "Primary Expressions") (production :primary-expression (null) primary-expression-null) (production :primary-expression (true) primary-expression-true) (production :primary-expression (false) primary-expression-false) (production :primary-expression (public) primary-expression-public) (production :primary-expression ($number) primary-expression-number) (production :primary-expression ($string) primary-expression-string) (production :primary-expression (this) primary-expression-this) (production :primary-expression ($regular-expression) primary-expression-regular-expression) (production :primary-expression (:unit-expression) primary-expression-unit-expression) (production :primary-expression (:array-literal) primary-expression-array-literal) (production :primary-expression (:object-literal) primary-expression-object-literal) (production :primary-expression (:function-expression) primary-expression-function-expression) (%print-actions) (production :parenthesized-expression (\( (:assignment-expression allow-in) \)) parenthesized-expression-assignment-expression) (rule :parenthesized-list-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production :parenthesized-list-expression (:parenthesized-expression) parenthesized-list-expression-parenthesized-expression ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :parenthesized-list-expression (\( (:list-expression allow-in) \, (:assignment-expression allow-in) \)) parenthesized-list-expression-list-expression ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo)))) (%print-actions) (%subsection "Function Expressions") (production :function-expression (function :function-signature :block) function-expression-anonymous) (production :function-expression (function :identifier :function-signature :block) function-expression-named) (%subsection "Object Literals") (production :object-literal (\{ \}) object-literal-empty) (production :object-literal (\{ :field-list \}) object-literal-list) (production :field-list (:literal-field) field-list-one) (production :field-list (:field-list \, :literal-field) field-list-more) (production :literal-field (:field-name \: (:assignment-expression allow-in)) literal-field-assignment-expression) (production :field-name (:identifier) field-name-identifier) (production :field-name ($string) field-name-string) (production :field-name ($number) field-name-number) (? js2 (production :field-name (:parenthesized-expression) field-name-parenthesized-expression)) (%subsection "Array Literals") (production :array-literal ([ :element-list ]) array-literal-list) (production :element-list (:literal-element) element-list-one) (production :element-list (:element-list \, :literal-element) element-list-more) (production :literal-element () literal-element-none) (production :literal-element ((:assignment-expression allow-in)) literal-element-assignment-expression) (%subsection "Super Operator") (rule :super-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production :super-expression (super) super-expression-super ((verify s) (rwhen (not (allows-super s)) (throw syntax-error))) ((eval (e :unused)) (todo)) ((super e) (return (lexical-class e)))) (production :super-expression (:full-super-expression) super-expression-full-super-expression ((verify s) (rwhen (not (allows-super s)) (throw syntax-error)) (todo)) ((eval (e :unused)) (todo)) ((super e) (return (lexical-class e))))) (production :full-super-expression (super :parenthesized-expression) full-super-expression-super-parenthesized-expression) (%print-actions) (%subsection "Postfix Operators") (rule :postfix-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production :postfix-expression (:attribute-expression) postfix-expression-attribute-expression ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :postfix-expression (:full-postfix-expression) postfix-expression-full-postfix-expression ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :postfix-expression (:short-new-expression) postfix-expression-short-new-expression ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo)))) (%print-actions) (rule :postfix-expression-or-super ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production :postfix-expression-or-super (:postfix-expression) postfix-expression-or-super-postfix-expression (verify (verify :postfix-expression)) (eval (eval :postfix-expression)) ((super (e :unused)) (return null))) (production :postfix-expression-or-super (:super-expression) postfix-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (production :attribute-expression (:simple-qualified-identifier) attribute-expression-simple-qualified-identifier) (production :attribute-expression (:attribute-expression :member-operator) attribute-expression-member-operator) (production :attribute-expression (:attribute-expression :arguments) attribute-expression-call) (production :full-postfix-expression (:primary-expression) full-postfix-expression-primary-expression) (production :full-postfix-expression (:expression-qualified-identifier) full-postfix-expression-expression-qualified-identifier) (production :full-postfix-expression (:full-new-expression) full-postfix-expression-full-new-expression) (production :full-postfix-expression (:full-postfix-expression :member-operator) full-postfix-expression-member-operator) (production :full-postfix-expression (:super-expression :dot-operator) full-postfix-expression-super-dot-operator) (production :full-postfix-expression (:full-postfix-expression :arguments) full-postfix-expression-call) (production :full-postfix-expression (:full-super-expression :arguments) full-postfix-expression-super-call) (production :full-postfix-expression (:postfix-expression-or-super :no-line-break ++) full-postfix-expression-increment) (production :full-postfix-expression (:postfix-expression-or-super :no-line-break --) full-postfix-expression-decrement) (production :full-new-expression (new :full-new-subexpression :arguments) full-new-expression-new) (production :full-new-expression (new :full-super-expression :arguments) full-new-expression-super-new) (production :full-new-subexpression (:primary-expression) full-new-subexpression-primary-expression) (production :full-new-subexpression (:qualified-identifier) full-new-subexpression-qualified-identifier) (production :full-new-subexpression (:full-new-expression) full-new-subexpression-full-new-expression) (production :full-new-subexpression (:full-new-subexpression :member-operator) full-new-subexpression-member-operator) (production :full-new-subexpression (:super-expression :dot-operator) full-new-subexpression-super-dot-operator) (production :short-new-expression (new :short-new-subexpression) short-new-expression-new) (production :short-new-expression (new :super-expression) short-new-expression-super-new) (production :short-new-subexpression (:full-new-subexpression) short-new-subexpression-new-full) (production :short-new-subexpression (:short-new-expression) short-new-subexpression-new-short) (production :member-operator (:dot-operator) member-operator-dot-operator) (production :member-operator (\. class) member-operator-class) (production :member-operator (\. :parenthesized-expression) member-operator-indirect) (production :dot-operator (\. :qualified-identifier) dot-operator-qualified-identifier) (production :dot-operator (:brackets) dot-operator-brackets) (production :brackets ([ ]) brackets-none) (production :brackets ([ (:list-expression allow-in) ]) brackets-unnamed) (production :brackets ([ :named-argument-list ]) brackets-named) (production :arguments (:parenthesized-expressions) arguments-parenthesized-expressions) (production :arguments (\( :named-argument-list \)) arguments-named) (production :parenthesized-expressions (\( \)) parenthesized-expressions-none) (production :parenthesized-expressions (:parenthesized-list-expression) parenthesized-expressions-some) (production :named-argument-list (:literal-field) named-argument-list-one) (production :named-argument-list ((:list-expression allow-in) \, :literal-field) named-argument-list-unnamed) (production :named-argument-list (:named-argument-list \, :literal-field) named-argument-list-more) (%subsection "Unary Operators") (production :unary-expression (:postfix-expression) unary-expression-postfix) (production :unary-expression (const :postfix-expression-or-super) unary-expression-const) (production :unary-expression (delete :postfix-expression-or-super) unary-expression-delete) (production :unary-expression (void :unary-expression) unary-expression-void) (production :unary-expression (typeof :unary-expression) unary-expression-typeof) (production :unary-expression (++ :postfix-expression-or-super) unary-expression-increment) (production :unary-expression (-- :postfix-expression-or-super) unary-expression-decrement) (production :unary-expression (+ :unary-expression-or-super) unary-expression-plus) (production :unary-expression (- :unary-expression-or-super) unary-expression-minus) (production :unary-expression (~ :unary-expression-or-super) unary-expression-bitwise-not) (production :unary-expression (! :unary-expression) unary-expression-logical-not) (production :unary-expression-or-super (:unary-expression) unary-expression-or-super-unary-expression) (production :unary-expression-or-super (:super-expression) unary-expression-or-super-super) (%subsection "Multiplicative Operators") (rule :multiplicative-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production :multiplicative-expression (:unary-expression) multiplicative-expression-unary ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :multiplicative-expression (:multiplicative-expression-or-super * :unary-expression-or-super) multiplicative-expression-multiply ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :multiplicative-expression (:multiplicative-expression-or-super / :unary-expression-or-super) multiplicative-expression-divide ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo))) (production :multiplicative-expression (:multiplicative-expression-or-super % :unary-expression-or-super) multiplicative-expression-remainder ((verify (s :unused)) (todo)) ((eval (e :unused)) (todo)))) (%print-actions) (rule :multiplicative-expression-or-super ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production :multiplicative-expression-or-super (:multiplicative-expression) multiplicative-expression-or-super-multiplicative-expression (verify (verify :multiplicative-expression)) (eval (eval :multiplicative-expression)) ((super (e :unused)) (return null))) (production :multiplicative-expression-or-super (:super-expression) multiplicative-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Additive Operators") (rule :additive-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production :additive-expression (:multiplicative-expression) additive-expression-multiplicative (verify (verify :multiplicative-expression)) (eval (eval :multiplicative-expression))) (production :additive-expression (:additive-expression-or-super + :multiplicative-expression-or-super) additive-expression-add ((verify s) ((verify :additive-expression-or-super) s) ((verify :multiplicative-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :additive-expression-or-super) e))) (const b object (read-reference ((eval :multiplicative-expression-or-super) e))) (const sa class-opt ((super :additive-expression-or-super) e)) (const sb class-opt ((super :multiplicative-expression-or-super) e)) (return ((bin-op-eval bin-op-add sa sb) a b)))) (production :additive-expression (:additive-expression-or-super - :multiplicative-expression-or-super) additive-expression-subtract ((verify s) ((verify :additive-expression-or-super) s) ((verify :multiplicative-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :additive-expression-or-super) e))) (const b object (read-reference ((eval :multiplicative-expression-or-super) e))) (const sa class-opt ((super :additive-expression-or-super) e)) (const sb class-opt ((super :multiplicative-expression-or-super) e)) (return ((bin-op-eval bin-op-subtract sa sb) a b))))) (%print-actions) (rule :additive-expression-or-super ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production :additive-expression-or-super (:additive-expression) additive-expression-or-super-additive-expression (verify (verify :additive-expression)) (eval (eval :additive-expression)) ((super (e :unused)) (return null))) (production :additive-expression-or-super (:super-expression) additive-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Bitwise Shift Operators") (rule :shift-expression ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production :shift-expression (:additive-expression) shift-expression-additive (verify (verify :additive-expression)) (eval (eval :additive-expression))) (production :shift-expression (:shift-expression-or-super << :additive-expression-or-super) shift-expression-left ((verify s) ((verify :shift-expression-or-super) s) ((verify :additive-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :shift-expression-or-super) e))) (const b object (read-reference ((eval :additive-expression-or-super) e))) (const sa class-opt ((super :shift-expression-or-super) e)) (const sb class-opt ((super :additive-expression-or-super) e)) (return ((bin-op-eval bin-op-shift-left sa sb) a b)))) (production :shift-expression (:shift-expression-or-super >> :additive-expression-or-super) shift-expression-right-signed ((verify s) ((verify :shift-expression-or-super) s) ((verify :additive-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :shift-expression-or-super) e))) (const b object (read-reference ((eval :additive-expression-or-super) e))) (const sa class-opt ((super :shift-expression-or-super) e)) (const sb class-opt ((super :additive-expression-or-super) e)) (return ((bin-op-eval bin-op-shift-right sa sb) a b)))) (production :shift-expression (:shift-expression-or-super >>> :additive-expression-or-super) shift-expression-right-unsigned ((verify s) ((verify :shift-expression-or-super) s) ((verify :additive-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :shift-expression-or-super) e))) (const b object (read-reference ((eval :additive-expression-or-super) e))) (const sa class-opt ((super :shift-expression-or-super) e)) (const sb class-opt ((super :additive-expression-or-super) e)) (return ((bin-op-eval bin-op-shift-right-unsigned sa sb) a b))))) (%print-actions) (rule :shift-expression-or-super ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production :shift-expression-or-super (:shift-expression) shift-expression-or-super-shift-expression (verify (verify :shift-expression)) (eval (eval :shift-expression)) ((super (e :unused)) (return null))) (production :shift-expression-or-super (:super-expression) shift-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Relational Operators") (rule (:relational-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:relational-expression :beta) (:shift-expression) relational-expression-shift (verify (verify :shift-expression)) (eval (eval :shift-expression))) (production (:relational-expression :beta) ((:relational-expression-or-super :beta) < :shift-expression-or-super) relational-expression-less ((verify s) ((verify :relational-expression-or-super) s) ((verify :shift-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :relational-expression-or-super) e))) (const b object (read-reference ((eval :shift-expression-or-super) e))) (const sa class-opt ((super :relational-expression-or-super) e)) (const sb class-opt ((super :shift-expression-or-super) e)) (return ((bin-op-eval bin-op-less sa sb) a b)))) (production (:relational-expression :beta) ((:relational-expression-or-super :beta) > :shift-expression-or-super) relational-expression-greater ((verify s) ((verify :relational-expression-or-super) s) ((verify :shift-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :relational-expression-or-super) e))) (const b object (read-reference ((eval :shift-expression-or-super) e))) (const sa class-opt ((super :relational-expression-or-super) e)) (const sb class-opt ((super :shift-expression-or-super) e)) (return ((bin-op-eval bin-op-less sb sa) b a)))) (production (:relational-expression :beta) ((:relational-expression-or-super :beta) <= :shift-expression-or-super) relational-expression-less-or-equal ((verify s) ((verify :relational-expression-or-super) s) ((verify :shift-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :relational-expression-or-super) e))) (const b object (read-reference ((eval :shift-expression-or-super) e))) (const sa class-opt ((super :relational-expression-or-super) e)) (const sb class-opt ((super :shift-expression-or-super) e)) (return ((bin-op-eval bin-op-less-or-equal sa sb) a b)))) (production (:relational-expression :beta) ((:relational-expression-or-super :beta) >= :shift-expression-or-super) relational-expression-greater-or-equal ((verify s) ((verify :relational-expression-or-super) s) ((verify :shift-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :relational-expression-or-super) e))) (const b object (read-reference ((eval :shift-expression-or-super) e))) (const sa class-opt ((super :relational-expression-or-super) e)) (const sb class-opt ((super :shift-expression-or-super) e)) (return ((bin-op-eval bin-op-less-or-equal sb sa) b a)))) (production (:relational-expression :beta) ((:relational-expression :beta) is :shift-expression) relational-expression-is ((verify s) ((verify :relational-expression) s) ((verify :shift-expression) s)) ((eval (e :unused)) (todo))) (production (:relational-expression :beta) ((:relational-expression :beta) as :shift-expression) relational-expression-as ((verify s) ((verify :relational-expression) s) ((verify :shift-expression) s)) ((eval (e :unused)) (todo))) (production (:relational-expression allow-in) ((:relational-expression allow-in) in :shift-expression-or-super) relational-expression-in ((verify s) ((verify :relational-expression) s) ((verify :shift-expression-or-super) s)) ((eval (e :unused)) (todo)))) (%print-actions) (rule (:relational-expression-or-super :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production (:relational-expression-or-super :beta) ((:relational-expression :beta)) relational-expression-or-super-relational-expression (verify (verify :relational-expression)) (eval (eval :relational-expression)) ((super (e :unused)) (return null))) (production (:relational-expression-or-super :beta) (:super-expression) relational-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Equality Operators") (rule (:equality-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:equality-expression :beta) ((:relational-expression :beta)) equality-expression-relational (verify (verify :relational-expression)) (eval (eval :relational-expression))) (production (:equality-expression :beta) ((:equality-expression-or-super :beta) == (:relational-expression-or-super :beta)) equality-expression-equal ((verify s) ((verify :equality-expression-or-super) s) ((verify :relational-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :equality-expression-or-super) e))) (const b object (read-reference ((eval :relational-expression-or-super) e))) (const sa class-opt ((super :equality-expression-or-super) e)) (const sb class-opt ((super :relational-expression-or-super) e)) (return ((bin-op-eval bin-op-equal sa sb) a b)))) (production (:equality-expression :beta) ((:equality-expression-or-super :beta) != (:relational-expression-or-super :beta)) equality-expression-not-equal ((verify s) ((verify :equality-expression-or-super) s) ((verify :relational-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :equality-expression-or-super) e))) (const b object (read-reference ((eval :relational-expression-or-super) e))) (const sa class-opt ((super :equality-expression-or-super) e)) (const sb class-opt ((super :relational-expression-or-super) e)) (return (unary-not ((bin-op-eval bin-op-equal sa sb) a b))))) (production (:equality-expression :beta) ((:equality-expression-or-super :beta) === (:relational-expression-or-super :beta)) equality-expression-strict-equal ((verify s) ((verify :equality-expression-or-super) s) ((verify :relational-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :equality-expression-or-super) e))) (const b object (read-reference ((eval :relational-expression-or-super) e))) (const sa class-opt ((super :equality-expression-or-super) e)) (const sb class-opt ((super :relational-expression-or-super) e)) (return ((bin-op-eval bin-op-strict-equal sa sb) a b)))) (production (:equality-expression :beta) ((:equality-expression-or-super :beta) !== (:relational-expression-or-super :beta)) equality-expression-strict-not-equal ((verify s) ((verify :equality-expression-or-super) s) ((verify :relational-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :equality-expression-or-super) e))) (const b object (read-reference ((eval :relational-expression-or-super) e))) (const sa class-opt ((super :equality-expression-or-super) e)) (const sb class-opt ((super :relational-expression-or-super) e)) (return (unary-not ((bin-op-eval bin-op-strict-equal sa sb) a b)))))) (%print-actions) (rule (:equality-expression-or-super :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production (:equality-expression-or-super :beta) ((:equality-expression :beta)) equality-expression-or-super-equality-expression (verify (verify :equality-expression)) (eval (eval :equality-expression)) ((super (e :unused)) (return null))) (production (:equality-expression-or-super :beta) (:super-expression) equality-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Binary Bitwise Operators") (rule (:bitwise-and-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:bitwise-and-expression :beta) ((:equality-expression :beta)) bitwise-and-expression-equality (verify (verify :equality-expression)) (eval (eval :equality-expression))) (production (:bitwise-and-expression :beta) ((:bitwise-and-expression-or-super :beta) & (:equality-expression-or-super :beta)) bitwise-and-expression-and ((verify s) ((verify :bitwise-and-expression-or-super) s) ((verify :equality-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :bitwise-and-expression-or-super) e))) (const b object (read-reference ((eval :equality-expression-or-super) e))) (const sa class-opt ((super :bitwise-and-expression-or-super) e)) (const sb class-opt ((super :equality-expression-or-super) e)) (return ((bin-op-eval bin-op-bitwise-and sa sb) a b))))) (rule (:bitwise-xor-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:bitwise-xor-expression :beta) ((:bitwise-and-expression :beta)) bitwise-xor-expression-bitwise-and (verify (verify :bitwise-and-expression)) (eval (eval :bitwise-and-expression))) (production (:bitwise-xor-expression :beta) ((:bitwise-xor-expression-or-super :beta) ^ (:bitwise-and-expression-or-super :beta)) bitwise-xor-expression-xor ((verify s) ((verify :bitwise-xor-expression-or-super) s) ((verify :bitwise-and-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :bitwise-xor-expression-or-super) e))) (const b object (read-reference ((eval :bitwise-and-expression-or-super) e))) (const sa class-opt ((super :bitwise-xor-expression-or-super) e)) (const sb class-opt ((super :bitwise-and-expression-or-super) e)) (return ((bin-op-eval bin-op-bitwise-xor sa sb) a b))))) (rule (:bitwise-or-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:bitwise-or-expression :beta) ((:bitwise-xor-expression :beta)) bitwise-or-expression-bitwise-xor (verify (verify :bitwise-xor-expression)) (eval (eval :bitwise-xor-expression))) (production (:bitwise-or-expression :beta) ((:bitwise-or-expression-or-super :beta) \| (:bitwise-xor-expression-or-super :beta)) bitwise-or-expression-or ((verify s) ((verify :bitwise-or-expression-or-super) s) ((verify :bitwise-xor-expression-or-super) s)) ((eval e) (const a object (read-reference ((eval :bitwise-or-expression-or-super) e))) (const b object (read-reference ((eval :bitwise-xor-expression-or-super) e))) (const sa class-opt ((super :bitwise-or-expression-or-super) e)) (const sb class-opt ((super :bitwise-xor-expression-or-super) e)) (return ((bin-op-eval bin-op-bitwise-or sa sb) a b))))) (%print-actions) (rule (:bitwise-and-expression-or-super :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production (:bitwise-and-expression-or-super :beta) ((:bitwise-and-expression :beta)) bitwise-and-expression-or-super-bitwise-and-expression (verify (verify :bitwise-and-expression)) (eval (eval :bitwise-and-expression)) ((super (e :unused)) (return null))) (production (:bitwise-and-expression-or-super :beta) (:super-expression) bitwise-and-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (rule (:bitwise-xor-expression-or-super :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production (:bitwise-xor-expression-or-super :beta) ((:bitwise-xor-expression :beta)) bitwise-xor-expression-or-super-bitwise-xor-expression (verify (verify :bitwise-xor-expression)) (eval (eval :bitwise-xor-expression)) ((super (e :unused)) (return null))) (production (:bitwise-xor-expression-or-super :beta) (:super-expression) bitwise-xor-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (rule (:bitwise-or-expression-or-super :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference)) (super (-> (dynamic-env) class-opt))) (production (:bitwise-or-expression-or-super :beta) ((:bitwise-or-expression :beta)) bitwise-or-expression-or-super-bitwise-or-expression (verify (verify :bitwise-or-expression)) (eval (eval :bitwise-or-expression)) ((super (e :unused)) (return null))) (production (:bitwise-or-expression-or-super :beta) (:super-expression) bitwise-or-expression-or-super-super (verify (verify :super-expression)) (eval (eval :super-expression)) (super (super :super-expression)))) (%print-actions) (%subsection "Binary Logical Operators") (rule (:logical-and-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:logical-and-expression :beta) ((:bitwise-or-expression :beta)) logical-and-expression-bitwise-or (verify (verify :bitwise-or-expression)) (eval (eval :bitwise-or-expression))) (production (:logical-and-expression :beta) ((:logical-and-expression :beta) && (:bitwise-or-expression :beta)) logical-and-expression-and ((verify s) ((verify :logical-and-expression) s) ((verify :bitwise-or-expression) s)) ((eval e) (const a object (read-reference ((eval :logical-and-expression) e))) (if (to-boolean a) (return (read-reference ((eval :bitwise-or-expression) e))) (return a))))) (%print-actions) (rule (:logical-xor-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:logical-xor-expression :beta) ((:logical-and-expression :beta)) logical-xor-expression-logical-and (verify (verify :logical-and-expression)) (eval (eval :logical-and-expression))) (production (:logical-xor-expression :beta) ((:logical-xor-expression :beta) ^^ (:logical-and-expression :beta)) logical-xor-expression-xor ((verify s) ((verify :logical-xor-expression) s) ((verify :logical-and-expression) s)) ((eval e) (const a object (read-reference ((eval :logical-xor-expression) e))) (const b object (read-reference ((eval :logical-and-expression) e))) (const ab boolean (to-boolean a)) (const bb boolean (to-boolean b)) (return (xor ab bb))))) (%print-actions) (rule (:logical-or-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:logical-or-expression :beta) ((:logical-xor-expression :beta)) logical-or-expression-logical-xor (verify (verify :logical-xor-expression)) (eval (eval :logical-xor-expression))) (production (:logical-or-expression :beta) ((:logical-or-expression :beta) \|\| (:logical-xor-expression :beta)) logical-or-expression-or ((verify s) ((verify :logical-or-expression) s) ((verify :logical-xor-expression) s)) ((eval e) (const a object (read-reference ((eval :logical-or-expression) e))) (if (to-boolean a) (return a) (return (read-reference ((eval :logical-xor-expression) e))))))) (%print-actions) (%subsection "Conditional Operator") (rule (:conditional-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:conditional-expression :beta) ((:logical-or-expression :beta)) conditional-expression-logical-or (verify (verify :logical-or-expression)) (eval (eval :logical-or-expression))) (production (:conditional-expression :beta) ((:logical-or-expression :beta) ? (:assignment-expression :beta) \: (:assignment-expression :beta)) conditional-expression-conditional ((verify s) ((verify :logical-or-expression) s) ((verify :assignment-expression 1) s) ((verify :assignment-expression 2) s)) ((eval e) (if (to-boolean (read-reference ((eval :logical-or-expression) e))) (return ((eval :assignment-expression 1) e)) (return ((eval :assignment-expression 2) e)))))) (%print-actions) (production (:non-assignment-expression :beta) ((:logical-or-expression :beta)) non-assignment-expression-logical-or) (production (:non-assignment-expression :beta) ((:logical-or-expression :beta) ? (:non-assignment-expression :beta) \: (:non-assignment-expression :beta)) non-assignment-expression-conditional) (%print-actions) (%subsection "Assignment Operators") (rule (:assignment-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:assignment-expression :beta) ((:conditional-expression :beta)) assignment-expression-conditional (verify (verify :conditional-expression)) (eval (eval :conditional-expression))) (production (:assignment-expression :beta) (:postfix-expression = (:assignment-expression :beta)) assignment-expression-assignment ((verify s) ((verify :postfix-expression) s) ((verify :assignment-expression) s)) ((eval e) (const r reference ((eval :postfix-expression) e)) (const a object (read-reference ((eval :assignment-expression) e))) (write-reference r a) (return a))) (production (:assignment-expression :beta) (:postfix-expression-or-super :compound-assignment (:assignment-expression :beta)) assignment-expression-compound ((verify s) ((verify :postfix-expression-or-super) s) ((verify :assignment-expression) s)) ((eval e) (return (eval-assignment-op (bin-op-eval (bin-op :compound-assignment) ((super :postfix-expression-or-super) e) null) (eval :postfix-expression-or-super) (eval :assignment-expression) e)))) (production (:assignment-expression :beta) (:postfix-expression-or-super :compound-assignment :super-expression) assignment-expression-compound-super ((verify s) ((verify :postfix-expression-or-super) s) ((verify :super-expression) s)) ((eval e) (return (eval-assignment-op (bin-op-eval (bin-op :compound-assignment) ((super :postfix-expression-or-super) e) ((super :super-expression) e)) (eval :postfix-expression-or-super) (eval :super-expression) e)))) (production (:assignment-expression :beta) (:postfix-expression :logical-assignment (:assignment-expression :beta)) assignment-expression-logical-compound ((verify s) ((verify :postfix-expression) s) ((verify :assignment-expression) s)) ((eval (e :unused)) (todo)))) (define (eval-assignment-op (op (-> (object object) object)) (left-eval (-> (dynamic-env) reference)) (right-eval (-> (dynamic-env) reference)) (e dynamic-env)) reference (const r-left reference (left-eval e)) (const v-left object (read-reference r-left)) (const v-right object (read-reference (right-eval e))) (const result object (op v-left v-right)) (write-reference r-left result) (return result)) (%print-actions) (rule :compound-assignment ((bin-op binary-operator)) (production :compound-assignment (*=) compound-assignment-multiply (bin-op bin-op-multiply)) (production :compound-assignment (/=) compound-assignment-divide (bin-op bin-op-divide)) (production :compound-assignment (%=) compound-assignment-remainder (bin-op bin-op-remainder)) (production :compound-assignment (+=) compound-assignment-add (bin-op bin-op-add)) (production :compound-assignment (-=) compound-assignment-subtract (bin-op bin-op-subtract)) (production :compound-assignment (<<=) compound-assignment-shift-left (bin-op bin-op-shift-left)) (production :compound-assignment (>>=) compound-assignment-shift-right (bin-op bin-op-shift-right)) (production :compound-assignment (>>>=) compound-assignment-shift-right-unsigned (bin-op bin-op-shift-right-unsigned)) (production :compound-assignment (&=) compound-assignment-bitwise-and (bin-op bin-op-bitwise-and)) (production :compound-assignment (^=) compound-assignment-bitwise-xor (bin-op bin-op-bitwise-xor)) (production :compound-assignment (\|=) compound-assignment-bitwise-or (bin-op bin-op-bitwise-or))) (%print-actions) (production :logical-assignment (&&=) logical-assignment-logical-and) (production :logical-assignment (^^=) logical-assignment-logical-xor) (production :logical-assignment (\|\|=) logical-assignment-logical-or) (%print-actions) (%subsection "Comma Expressions") (rule (:list-expression :beta) ((verify (-> (static-env) void)) (eval (-> (dynamic-env) reference))) (production (:list-expression :beta) ((:assignment-expression :beta)) list-expression-assignment (verify (verify :assignment-expression)) (eval (eval :assignment-expression))) (production (:list-expression :beta) ((:list-expression :beta) \, (:assignment-expression :beta)) list-expression-comma ((verify s) ((verify :list-expression) s) ((verify :assignment-expression) s)) ((eval e) (exec (read-reference ((eval :list-expression) e))) (return ((eval :assignment-expression) e))))) (production :optional-expression ((:list-expression allow-in)) optional-expression-expression) (production :optional-expression () optional-expression-empty) (%print-actions) (%subsection "Type Expressions") (production (:type-expression :beta) ((:non-assignment-expression :beta)) type-expression-non-assignment-expression) (%print-actions) (%section "Statements") (grammar-argument :omega abbrev ;optional semicolon when followed by a '}', 'else', or 'while' in a do-while abbrev-no-short-if ;optional semicolon, but statement must not end with an if without an else full) ;semicolon required at the end (grammar-argument :omega_2 abbrev full) (rule (:statement :omega) ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production (:statement :omega) (:empty-statement) statement-empty-statement ((verify (s :unused))) ((eval (e :unused) d) (return d))) (production (:statement :omega) (:expression-statement (:semicolon :omega)) statement-expression-statement (verify (verify :expression-statement)) ((eval e (d :unused)) (return ((eval :expression-statement) e)))) (production (:statement :omega) (:super-statement (:semicolon :omega)) statement-super-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) (:block-statement) statement-block-statement (verify (verify :block-statement)) (eval (eval :block-statement))) (production (:statement :omega) ((:labeled-statement :omega)) statement-labeled-statement (verify (verify :labeled-statement)) (eval (eval :labeled-statement))) (production (:statement :omega) ((:if-statement :omega)) statement-if-statement (verify (verify :if-statement)) (eval (eval :if-statement))) (production (:statement :omega) (:switch-statement) statement-switch-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) (:do-statement (:semicolon :omega)) statement-do-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) ((:while-statement :omega)) statement-while-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) ((:for-statement :omega)) statement-for-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) ((:with-statement :omega)) statement-with-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) (:continue-statement (:semicolon :omega)) statement-continue-statement (verify (verify :continue-statement)) (eval (eval :continue-statement))) (production (:statement :omega) (:break-statement (:semicolon :omega)) statement-break-statement (verify (verify :break-statement)) (eval (eval :break-statement))) (production (:statement :omega) (:return-statement (:semicolon :omega)) statement-return-statement (verify (verify :return-statement)) ((eval e (d :unused)) (return ((eval :return-statement) e)))) (production (:statement :omega) (:throw-statement (:semicolon :omega)) statement-throw-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:statement :omega) (:try-statement) statement-try-statement ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo)))) (%print-actions) (production (:semicolon :omega) (\;) semicolon-semicolon) (production (:semicolon :omega) ($virtual-semicolon) semicolon-virtual-semicolon) (production (:semicolon abbrev) () semicolon-abbrev) (production (:semicolon abbrev-no-short-if) () semicolon-abbrev-no-short-if) (%subsection "Empty Statement") (production :empty-statement (\;) empty-statement-semicolon) (%subsection "Expression Statement") (rule :expression-statement ((verify (-> (static-env) void)) (eval (-> (dynamic-env) object))) (production :expression-statement ((:- function { const) (:list-expression allow-in)) expression-statement-list-expression (verify (verify :list-expression)) ((eval e) (return (read-reference ((eval :list-expression) e)))))) (%print-actions) (%subsection "Super Statement") (production :super-statement (super :arguments) super-statement-super-arguments) (%print-actions) (%subsection "Block Statement") (rule :block-statement ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :block-statement (:block) block-statement-block (verify (verify :block)) (eval (eval :block)))) (rule :block ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :block ({ :directives }) block-directives (verify (verify :directives)) (eval (eval :directives)))) (rule :directives ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :directives () directives-none ((verify (s :unused))) ((eval (e :unused) d) (return d))) (production :directives (:directives-prefix (:directive abbrev)) directives-more ((verify s) ((verify :directives-prefix) s) ((verify :directive) s)) ((eval e d) (const v object ((eval :directive) e d)) (return ((eval :directives-prefix) e v))))) (rule :directives-prefix ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :directives-prefix () directives-prefix-none ((verify (s :unused))) ((eval (e :unused) d) (return d))) (production :directives-prefix (:directives-prefix (:directive full)) directives-prefix-more ((verify s) ((verify :directives-prefix) s) ((verify :directive) s)) ((eval e d) (const v object ((eval :directive) e d)) (return ((eval :directives-prefix) e v))))) (%print-actions) (%subsection "Labeled Statements") (rule (:labeled-statement :omega) ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production (:labeled-statement :omega) (:identifier \: (:substatement :omega)) labeled-statement-label ((verify s) ((verify :substatement) (add-label s (name :identifier)))) ((eval e d) (catch ((return ((eval :substatement) e d))) (x) (if (:narrow-true (in (tag go-break) x)) (if (= (& label x) (name :identifier) string) (return (& value x)) (throw x)) (throw x)))))) (%print-actions) (%subsection "If Statement") (rule (:if-statement :omega) ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production (:if-statement abbrev) (if :parenthesized-list-expression (:substatement abbrev)) if-statement-if-then-abbrev ((verify s) ((verify :parenthesized-list-expression) s) ((verify :substatement) s)) ((eval e d) (if (to-boolean (read-reference ((eval :parenthesized-list-expression) e))) (return ((eval :substatement) e d)) (return d)))) (production (:if-statement full) (if :parenthesized-list-expression (:substatement full)) if-statement-if-then-full ((verify s) ((verify :parenthesized-list-expression) s) ((verify :substatement) s)) ((eval e d) (if (to-boolean (read-reference ((eval :parenthesized-list-expression) e))) (return ((eval :substatement) e d)) (return d)))) (production (:if-statement :omega) (if :parenthesized-list-expression (:substatement abbrev-no-short-if) else (:substatement :omega)) if-statement-if-then-else ((verify s) ((verify :parenthesized-list-expression) s) ((verify :substatement 1) s) ((verify :substatement 2) s)) ((eval e d) (if (to-boolean (read-reference ((eval :parenthesized-list-expression) e))) (return ((eval :substatement 1) e d)) (return ((eval :substatement 2) e d)))))) (%print-actions) (%subsection "Switch Statement") (production :switch-statement (switch :parenthesized-list-expression { :case-statements }) switch-statement-cases) (production :case-statements () case-statements-none) (production :case-statements (:case-label) case-statements-one) (production :case-statements (:case-label :case-statements-prefix (:case-statement abbrev)) case-statements-more) (production :case-statements-prefix () case-statements-prefix-none) (production :case-statements-prefix (:case-statements-prefix (:case-statement full)) case-statements-prefix-more) (production (:case-statement :omega_2) ((:substatement :omega_2)) case-statement-statement) (production (:case-statement :omega_2) (:case-label) case-statement-case-label) (production :case-label (case (:list-expression allow-in) \:) case-label-case) (production :case-label (default \:) case-label-default) (%print-actions) (%subsection "Do-While Statement") (production :do-statement (do (:substatement abbrev) while :parenthesized-list-expression) do-statement-do-while) (%print-actions) (%subsection "While Statement") (production (:while-statement :omega) (while :parenthesized-list-expression (:substatement :omega)) while-statement-while) (%print-actions) (%subsection "For Statements") (production (:for-statement :omega) (for \( :for-initializer \; :optional-expression \; :optional-expression \) (:substatement :omega)) for-statement-c-style) (production (:for-statement :omega) (for \( :for-in-binding in (:list-expression allow-in) \) (:substatement :omega)) for-statement-in) (production :for-initializer () for-initializer-empty) (production :for-initializer ((:- const) (:list-expression no-in)) for-initializer-expression) (production :for-initializer (:attributes :variable-definition-kind (:variable-binding-list no-in)) for-initializer-variable-definition) (production :for-in-binding ((:- const) :postfix-expression) for-in-binding-expression) (production :for-in-binding (:attributes :variable-definition-kind (:variable-binding no-in)) for-in-binding-variable-definition) (%print-actions) (%subsection "With Statement") (production (:with-statement :omega) (with :parenthesized-list-expression (:substatement :omega)) with-statement-with) (%print-actions) (%subsection "Continue and Break Statements") (rule :continue-statement ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :continue-statement (continue) continue-statement-unlabeled ((verify (s :unused)) (todo)) ((eval (e :unused) d) (throw (tag go-continue d "")))) (production :continue-statement (continue :no-line-break :identifier) continue-statement-labeled ((verify (s :unused)) (todo)) ((eval (e :unused) d) (throw (tag go-continue d (name :identifier)))))) (rule :break-statement ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production :break-statement (break) break-statement-unlabeled ((verify (s :unused)) (todo)) ((eval (e :unused) d) (throw (tag go-break d "")))) (production :break-statement (break :no-line-break :identifier) break-statement-labeled ((verify (s :unused)) (todo)) ((eval (e :unused) d) (throw (tag go-break d (name :identifier)))))) (%print-actions) (%subsection "Return Statement") (rule :return-statement ((verify (-> (static-env) void)) (eval (-> (dynamic-env) object))) (production :return-statement (return) return-statement-default ((verify s) (when (not (& can-return s)) (throw syntax-error))) ((eval (e :unused)) (throw (tag go-return undefined)))) (production :return-statement (return :no-line-break (:list-expression allow-in)) return-statement-expression ((verify s) (when (not (& can-return s)) (throw syntax-error)) ((verify :list-expression) s)) ((eval e) (throw (tag go-return (read-reference ((eval :list-expression) e))))))) (%print-actions) (%subsection "Throw Statement") (production :throw-statement (throw :no-line-break (:list-expression allow-in)) throw-statement-throw) (%print-actions) (%subsection "Try Statement") (production :try-statement (try :block-statement :catch-clauses) try-statement-catch-clauses) (production :try-statement (try :block-statement :finally-clause) try-statement-finally-clause) (production :try-statement (try :block-statement :catch-clauses :finally-clause) try-statement-catch-clauses-finally-clause) (production :catch-clauses (:catch-clause) catch-clauses-one) (production :catch-clauses (:catch-clauses :catch-clause) catch-clauses-more) (production :catch-clause (catch \( :parameter \) :block) catch-clause-block) (production :finally-clause (finally :block-statement) finally-clause-block-statement) (%print-actions) (%section "Directives") (rule (:directive :omega_2) ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production (:directive :omega_2) ((:statement :omega_2)) directive-statement (verify (verify :statement)) (eval (eval :statement))) (production (:directive :omega_2) ((:annotated-definition :omega_2)) directive-annotated-definition ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:directive :omega_2) (:annotated-block) directive-annotated-block ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:directive :omega_2) (:use-directive (:semicolon :omega_2)) directive-use-directive ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (? js2 (production (:directive :omega_2) (:include-directive (:semicolon :omega_2)) directive-include-directive ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo)))) (production (:directive :omega_2) (:pragma (:semicolon :omega_2)) directive-pragma ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo)))) (rule (:substatement :omega) ((verify (-> (static-env) void)) (eval (-> (dynamic-env object) object))) (production (:substatement :omega) ((:statement :omega)) substatement-statement (verify (verify :statement)) (eval (eval :statement))) (production (:substatement :omega) (:simple-variable-definition (:semicolon :omega)) substatement-simple-variable-definition ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo))) (production (:substatement :omega) (:simple-annotated-block) substatement-simple-annotated-block ((verify (s :unused)) (todo)) ((eval (e :unused) (d :unused)) (todo)))) (%print-actions) (%subsection "Annotated Blocks") (production :annotated-block (:nonempty-attributes :block) annotated-block-nonempty-attributes-and-block) (production :nonempty-attributes (:attribute :no-line-break :attributes) nonempty-attributes-more) (production :simple-annotated-block (:nonempty-attributes { :substatements }) simple-annotated-block-nonempty-attributes-and-simple-block) (production :substatements () substatements-none) (production :substatements (:substatements-prefix (:substatement abbrev)) substatements-more) (production :substatements-prefix () substatements-prefix-none) (production :substatements-prefix (:substatements-prefix (:substatement full)) substatements-prefix-more) (%subsection "Use Directive") (production :use-directive (use namespace :parenthesized-expressions :use-includes-excludes) use-directive-normal) (production :use-includes-excludes () use-includes-excludes-none) (production :use-includes-excludes (\, exclude \( :use-name-patterns \)) use-includes-excludes-exclude-list) (production :use-includes-excludes (\, include \( :use-name-patterns \)) use-includes-excludes-include-list) (production :use-name-patterns () use-name-patterns-empty) (production :use-name-patterns (:use-name-pattern-list) use-name-patterns-use-name-pattern-list) (production :use-name-patterns (*) use-name-patterns-wildcard) (production :use-name-pattern-list (:identifier) use-name-pattern-list-one) (production :use-name-pattern-list (:use-name-pattern-list \, :identifier) use-name-pattern-list-more) #| (production :use-name-patterns (:use-name-pattern) use-name-patterns-one) (production :use-name-patterns (:use-name-patterns \, :use-name-pattern) use-name-patterns-more) (production :use-name-pattern (:qualified-wildcard-pattern) use-name-pattern-qualified-wildcard-pattern) (production :use-name-pattern (:full-postfix-expression \. :qualified-wildcard-pattern) use-name-pattern-dot-qualified-wildcard-pattern) (production :use-name-pattern (:attribute-expression \. :qualified-wildcard-pattern) use-name-pattern-dot-qualified-wildcard-pattern2) (production :qualified-wildcard-pattern (:qualified-identifier) qualified-wildcard-pattern-qualified-identifier) (production :qualified-wildcard-pattern (:wildcard-pattern) qualified-wildcard-pattern-wildcard-pattern) (production :qualified-wildcard-pattern (:qualifier \:\: :wildcard-pattern) qualified-wildcard-pattern-qualifier) (production :qualified-wildcard-pattern (:parenthesized-expression \:\: :wildcard-pattern) qualified-wildcard-pattern-expression-qualifier) (production :wildcard-pattern (*) wildcard-pattern-all) (production :wildcard-pattern ($regular-expression) wildcard-pattern-regular-expression) |# (? js2 (%subsection "Include Directive") (production :include-directive (include :no-line-break $string) include-directive-include)) (%section "Pragma") (production :pragma (use :pragma-items) pragma-pragma-items) (production :pragma-items (:pragma-item) pragma-items-one) (production :pragma-items (:pragma-items \, :pragma-item) pragma-items-more) (production :pragma-item (:pragma-expr) pragma-item-pragma-expr) (production :pragma-item (:pragma-expr \?) pragma-item-optional-pragma-expr) (production :pragma-expr (:identifier) pragma-expr-identifier) (production :pragma-expr (:identifier :parenthesized-expressions) pragma-expr-identifier-and-arguments) (%section "Definitions") (production (:annotated-definition :omega_2) (:attributes (:definition :omega_2)) annotated-definition-attributes-and-definition) (production (:annotated-definition :omega_2) (:package-definition) annotated-definition-package-definition) (production (:definition :omega_2) (:import-definition (:semicolon :omega_2)) definition-import-definition) (production (:definition :omega_2) (:export-definition (:semicolon :omega_2)) definition-export-definition) (production (:definition :omega_2) (:variable-definition (:semicolon :omega_2)) definition-variable-definition) (production (:definition :omega_2) ((:function-definition :omega_2)) definition-function-definition) (production (:definition :omega_2) ((:class-definition :omega_2)) definition-class-definition) (production (:definition :omega_2) (:namespace-definition (:semicolon :omega_2)) definition-namespace-definition) (? js2 (production (:definition :omega_2) ((:interface-definition :omega_2)) definition-interface-definition)) (production :attributes () attributes-none) (production :attributes (:attribute :no-line-break :attributes) attributes-more) (production :attribute (:attribute-expression) attribute-attribute-expression) (production :attribute (abstract) attribute-abstract) (production :attribute (final) attribute-final) (production :attribute (private) attribute-private) (production :attribute (public) attribute-public) (production :attribute (static) attribute-static) (production :attribute (true) attribute-true) (production :attribute (false) attribute-false) (%subsection "Import Definition") (production :import-definition (import :import-binding :import-uses :use-includes-excludes) import-definition-import) (production :import-binding (:import-item) import-binding-import-item) (production :import-binding (:identifier = :import-item) import-binding-named-import-item) (production :import-item ($string) import-item-string) (production :import-item (:package-name) import-item-package-name) (production :import-uses () import-uses-none) (production :import-uses (:parenthesized-expressions) import-uses-parenthesized-expressions) (%subsection "Export Definition") (production :export-definition (export :export-binding-list) export-definition-definition) (production :export-binding-list (:export-binding) export-binding-list-one) (production :export-binding-list (:export-binding-list \, :export-binding) export-binding-list-more) (production :export-binding (:function-name) export-binding-simple) (production :export-binding (:function-name = :function-name) export-binding-initializer) (%subsection "Variable Definition") (production :variable-definition (:variable-definition-kind (:variable-binding-list allow-in)) variable-definition-definition) (production :variable-definition-kind (var) variable-definition-kind-var) (production :variable-definition-kind (const) variable-definition-kind-const) (production (:variable-binding-list :beta) ((:variable-binding :beta)) variable-binding-list-one) (production (:variable-binding-list :beta) ((:variable-binding-list :beta) \, (:variable-binding :beta)) variable-binding-list-more) (production (:variable-binding :beta) ((:typed-variable :beta)) variable-binding-simple) (production (:variable-binding :beta) ((:typed-variable :beta) = (:variable-initializer :beta)) variable-binding-initialized) (production (:variable-initializer :beta) ((:assignment-expression :beta)) variable-initializer-assignment-expression) (production (:variable-initializer :beta) (:multiple-attributes) variable-initializer-multiple-attributes) (production (:variable-initializer :beta) (abstract) variable-initializer-abstract) (production (:variable-initializer :beta) (final) variable-initializer-final) (production (:variable-initializer :beta) (private) variable-initializer-private) (production (:variable-initializer :beta) (static) variable-initializer-static) (production :multiple-attributes (:attribute :no-line-break :attribute) multiple-attributes-two) (production :multiple-attributes (:multiple-attributes :no-line-break :attribute) multiple-attributes-more) (production (:typed-variable :beta) (:identifier) typed-variable-identifier) (production (:typed-variable :beta) (:identifier \: (:type-expression :beta)) typed-variable-identifier-and-type) ;(production (:typed-variable :beta) ((:type-expression :beta) :identifier) typed-variable-type-and-identifier) (production :simple-variable-definition (var :untyped-variable-binding-list) simple-variable-definition-definition) (production :untyped-variable-binding-list (:untyped-variable-binding) untyped-variable-binding-list-one) (production :untyped-variable-binding-list (:untyped-variable-binding-list \, :untyped-variable-binding) untyped-variable-binding-list-more) (production :untyped-variable-binding (:identifier) untyped-variable-binding-simple) (production :untyped-variable-binding (:identifier = (:variable-initializer allow-in)) untyped-variable-binding-initialized) (%subsection "Function Definition") (production (:function-definition :omega_2) (:function-declaration :block) function-definition-definition) (production (:function-definition :omega_2) (:function-declaration (:semicolon :omega_2)) function-definition-declaration) (production :function-declaration (function :function-name :function-signature) function-declaration-signature-and-body) (production :function-name (:identifier) function-name-function) (production :function-name (get :no-line-break :identifier) function-name-getter) (production :function-name (set :no-line-break :identifier) function-name-setter) (production :function-name ($string) function-name-string) (production :function-signature (:parameter-signature :result-signature) function-signature-parameter-and-result-signatures) (production :parameter-signature (\( :parameters \)) parameter-signature-parameters) (production :parameters () parameters-none) (production :parameters (:all-parameters) parameters-all-parameters) (production :all-parameters (:parameter) all-parameters-parameter) (production :all-parameters (:parameter \, :all-parameters) all-parameters-parameter-and-more) (production :all-parameters (:optional-parameters) all-parameters-optional-parameters) (production :optional-parameters (:optional-parameter) optional-parameters-optional-parameter) (production :optional-parameters (:optional-parameter \, :optional-parameters) optional-parameters-optional-parameter-and-more) (production :optional-parameters (:rest-parameter) optional-parameters-rest-parameter) (production :rest-parameter (\.\.\.) rest-parameter-none) (production :rest-parameter (\.\.\. :parameter) rest-parameter-parameter) (production :parameter (:parameter-attributes :identifier) parameter-identifier) (production :parameter (:parameter-attributes :identifier \: (:type-expression allow-in)) parameter-identifier-and-type) ;(production :parameter (:parameter-attributes (:- const) (:type-expression allow-in) :identifier) parameter-type-and-identifier) (production :parameter-attributes () parameter-attributes-none) (production :parameter-attributes (const) parameter-attributes-const) (production :optional-parameter (:parameter = (:assignment-expression allow-in)) optional-parameter-assignment-expression) (production :result-signature () result-signature-none) (production :result-signature (\: (:type-expression allow-in)) result-signature-colon-and-type-expression) ;(production :result-signature ((:- {) (:type-expression allow-in)) result-signature-type-expression) (%subsection "Class Definition") (production (:class-definition :omega_2) (class :identifier :inheritance :block) class-definition-definition) (production (:class-definition :omega_2) (class :identifier (:semicolon :omega_2)) class-definition-declaration) (production :inheritance () inheritance-none) (production :inheritance (extends (:type-expression allow-in)) inheritance-extends) (? js2 (production :inheritance (implements :type-expression-list) inheritance-implements) (production :inheritance (extends (:type-expression allow-in) implements :type-expression-list) inheritance-extends-implements) (%subsection "Interface Definition") (production (:interface-definition :omega_2) (interface :identifier :extends-list :block) interface-definition-definition) (production (:interface-definition :omega_2) (interface :identifier (:semicolon :omega_2)) interface-definition-declaration) (production :extends-list () extends-list-none) (production :extends-list (extends :type-expression-list) extends-list-one) (production :type-expression-list ((:type-expression allow-in)) type-expression-list-one) (production :type-expression-list (:type-expression-list \, (:type-expression allow-in)) type-expression-list-more)) (%subsection "Namespace Definition") (production :namespace-definition (namespace :identifier) namespace-definition-normal) (%section "Package Definition") (production :package-definition (package :block) package-definition-anonymous) (production :package-definition (package :package-name :block) package-definition-named) (production :package-name (:identifier) package-name-one) (production :package-name (:package-name \. :identifier) package-name-more) (%section "Programs") (rule :program ((eval-program object)) (production :program (:directives) program-directives (eval-program (begin ((verify :directives) initial-static-env) (return ((eval :directives) initial-dynamic-env undefined)))))))) (defparameter *jw* (generate-world "J" *jw-source* '((js2 . :js2) (es4 . :es4)))) (defparameter *jg* (world-grammar *jw* 'code-grammar)) (ensure-lf-subset *jg*) (forward-parser-states *jg*) #+allegro (clean-grammar *jg*) ;Remove this line if you wish to print the grammar's state tables. (defparameter *ew* nil) (defparameter *eg* nil) (defun compute-ecma-subset () (unless *ew* (setq *ew* (generate-world "E" *jw-source* '((js2 . delete) (es4 . nil)))) (setq *eg* (world-grammar *ew* 'code-grammar)) (ensure-lf-subset *eg*) (forward-parser-states *eg*)) (length (grammar-states *eg*))) ; Print a list of states that have both $REGULAR-EXPRESSION and either / or /= as valid lookaheads. (defun show-regexp-and-division-states (grammar) (all-state-transitions #'(lambda (state transitions-hash) (when (and (gethash '$regular-expression transitions-hash) (or (gethash '/ transitions-hash) (gethash '/= transitions-hash))) (format *error-output* "State ~S~%" state))) grammar)) ; Return five values: ; A list of terminals that may precede a $regular-expression terminal; ; A list of terminals that may precede a $virtual-semicolon but not / or /= terminal; ; A list of terminals that may precede a / or /= terminal; ; The intersection of the $regular-expression and /|/= lists. ; The intersection of the $regular-expression|$virtual-semicolon and /|/= lists. ; ; USE ONLY ON canonical-lr-1 grammars. ; DON'T RUN THIS AFTER CALLING forward-parser-states. (defun show-regexp-and-division-predecessors (grammar) (let* ((nstates (length (grammar-states grammar))) (state-predecessors (make-array nstates :element-type 'terminalset :initial-element *empty-terminalset*))) (dolist (state (grammar-states grammar)) (dolist (transition-pair (state-transitions state)) (let ((transition (cdr transition-pair))) (when (eq (transition-kind transition) :shift) (terminalset-union-f (svref state-predecessors (state-number (transition-state transition))) (make-terminalset grammar (car transition-pair))))))) (let ((regexp-predecessors *empty-terminalset*) (virtual-predecessors *empty-terminalset*) (div-predecessors *empty-terminalset*)) (all-state-transitions #'(lambda (state transitions-hash) (let ((predecessors (svref state-predecessors (state-number state)))) (when (gethash '$regular-expression transitions-hash) (terminalset-union-f regexp-predecessors predecessors)) (if (or (gethash '/ transitions-hash) (gethash '/= transitions-hash)) (terminalset-union-f div-predecessors predecessors) (when (gethash '$virtual-semicolon transitions-hash) (terminalset-union-f virtual-predecessors predecessors))))) grammar) (values (terminalset-list grammar regexp-predecessors) (terminalset-list grammar virtual-predecessors) (terminalset-list grammar div-predecessors) (terminalset-list grammar (terminalset-intersection regexp-predecessors div-predecessors)) (terminalset-list grammar (terminalset-intersection (terminalset-union regexp-predecessors virtual-predecessors) div-predecessors)))))) (defun depict-js-terminals (markup-stream grammar) (labels ((production-first-terminal (production) (first (production-rhs production))) (terminal-bin (terminal) (if (and terminal (symbolp terminal)) (let ((name (symbol-name terminal))) (if (> (length name) 0) (let ((first-char (char name 0))) (cond ((char= first-char #\$) 0) ((not (or (char= first-char #\_) (alphanumericp first-char))) 1) ((member terminal (rule-productions (grammar-rule grammar :identifier)) :key #'production-first-terminal) 5) (t 3))) 1)) 1)) (depict-terminal-bin (bin-name bin-terminals) (when bin-terminals (depict-paragraph (markup-stream :body-text) (depict markup-stream bin-name) (depict-list markup-stream #'depict-terminal bin-terminals :separator '(" " :spc " ")))))) (let* ((bins (make-array 6 :initial-element nil)) (all-terminals (grammar-terminals grammar)) (terminals (remove-if #'lf-terminal? all-terminals))) (assert-true (= (length all-terminals) (1- (* 2 (length terminals))))) (setf (svref bins 2) (list '\# '&&= '-> '@ '^^ '^^= '\|\|=)) (setf (svref bins 4) (list 'abstract 'class 'const 'debugger 'enum 'export 'extends 'final 'goto 'implements 'import 'instanceof 'interface 'native 'package 'private 'protected 'public 'static 'super 'synchronized 'throws 'transient 'volatile)) ; Used to be reserved in JavaScript 1.5: 'boolean 'byte 'char 'double 'float 'int 'long 'short (do ((i (length terminals))) ((zerop i)) (let ((terminal (aref terminals (decf i)))) (unless (eq terminal *end-marker*) (setf (svref bins 2) (delete terminal (svref bins 2))) (setf (svref bins 4) (delete terminal (svref bins 4))) (push terminal (svref bins (terminal-bin terminal)))))) (depict-paragraph (markup-stream :section-heading) (depict-link (markup-stream :definition "terminals" "" nil) (depict markup-stream "Terminals"))) (mapc #'depict-terminal-bin '("General tokens: " "Punctuation tokens: " "Future punctuation tokens: " "Reserved words: " "Future reserved words: " "Non-reserved words: ") (coerce bins 'list))))) #| (values (length (grammar-states *jg*)) (depict-rtf-to-local-file "JS20/ParserGrammarJS2.rtf" "JavaScript 2.0 Syntactic Grammar" #'(lambda (markup-stream) (depict-js-terminals markup-stream *jg*) (depict-world-commands markup-stream *jw* :visible-semantics nil))) (depict-rtf-to-local-file "JS20/ParserSemanticsJS2.rtf" "JavaScript 2.0 Syntactic Semantics" #'(lambda (markup-stream) (depict-js-terminals markup-stream *jg*) (depict-world-commands markup-stream *jw*))) (compute-ecma-subset) (depict-rtf-to-local-file "JS20/ParserGrammarES4.rtf" "ECMAScript Edition 4 Syntactic Grammar" #'(lambda (markup-stream) (depict-js-terminals markup-stream *eg*) (depict-world-commands markup-stream *ew* :visible-semantics nil))) (depict-rtf-to-local-file "JS20/ParserSemanticsES4.rtf" "ECMAScript Edition 4 Syntactic Semantics" #'(lambda (markup-stream) (depict-js-terminals markup-stream *eg*) (depict-world-commands markup-stream *ew*))) (length (grammar-states *jg*)) (depict-html-to-local-file "JS20/ParserGrammarJS2.html" "JavaScript 2.0 Syntactic Grammar" t #'(lambda (markup-stream) (depict-js-terminals markup-stream *jg*) (depict-world-commands markup-stream *jw* :visible-semantics nil)) :external-link-base "notation.html") (depict-html-to-local-file "JS20/ParserSemanticsJS2.html" "JavaScript 2.0 Syntactic Semantics" t #'(lambda (markup-stream) (depict-js-terminals markup-stream *jg*) (depict-world-commands markup-stream *jw*)) :external-link-base "notation.html") (compute-ecma-subset) (depict-html-to-local-file "JS20/ParserGrammarES4.html" "ECMAScript Edition 4 Syntactic Grammar" t #'(lambda (markup-stream) (depict-js-terminals markup-stream *eg*) (depict-world-commands markup-stream *ew* :visible-semantics nil)) :external-link-base "notation.html") (depict-html-to-local-file "JS20/ParserSemanticsES4.html" "ECMAScript Edition 4 Syntactic Semantics" t #'(lambda (markup-stream) (depict-js-terminals markup-stream *eg*) (depict-world-commands markup-stream *ew*)) :external-link-base "notation.html")) (depict-html-to-local-file "JS20/ParserSemanticsJS2.html" "JavaScript 2.0 Syntactic Semantics" t #'(lambda (markup-stream) (depict-js-terminals markup-stream *jg*) (depict-world-commands markup-stream *jw*)) :external-link-base "notation.html") (with-local-output (s "JS20/ParserGrammarJS2 states") (print-grammar *jg* s)) (compute-ecma-subset) (with-local-output (s "JS20/ParserGrammarES4 states") (print-grammar *eg* s)) |# (length (grammar-states *jg*))