;;; -*-lisp-*- ;;; ;;; Top-level parser for module syntax ;;; ;;; (c) 2010 Straylight/Edgeware ;;; ;;;----- Licensing notice --------------------------------------------------- ;;; ;;; This file is part of the Sensible Object Design, an object system for C. ;;; ;;; SOD is free software; you can redistribute it and/or modify ;;; it under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 2 of the License, or ;;; (at your option) any later version. ;;; ;;; SOD is distributed in the hope that it will be useful, ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with SOD; if not, write to the Free Software Foundation, ;;; Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. (in-package #:sod) ;;;-------------------------------------------------------------------------- ;;; Toplevel syntax. ;;; Type names. (define-pluggable-parser module typename (scanner pset) ;; `typename' id ( `,' id )* `;' (declare (ignore pset)) (with-parser-context (token-scanner-context :scanner scanner) (parse (and "typename" (skip-many (:min 1) (seq ((id :id)) (if (gethash id *module-type-map*) (cerror* "Type `~A' already defined" id) (add-to-module *module* (make-instance 'type-item :name id)))) #\,) #\;)))) ;;; Fragments. (define-pluggable-parser module code (scanner pset) ;; `code' id `:' item-name [constraints] `{' c-fragment `}' ;; ;; constrains ::= `[' constraint-list `]' ;; constraint ::= item-name+ ;; item-name ::= id | `(' id+ `)' (declare (ignore pset)) (with-parser-context (token-scanner-context :scanner scanner) (labels ((kw () (parse (seq ((kw :id)) (intern (frob-identifier kw) 'keyword)))) (item () (parse (or (kw) (seq (#\( (names (list (:min 1) (kw))) #\)) names))))) (parse (seq ("code" (reason (kw)) #\: (name (item)) (constraints (? (seq (#\[ (constraints (list (:min 1) (list (:min 1) (item)) #\,)) #\]) constraints))) (fragment (parse-delimited-fragment scanner #\{ #\}))) (add-to-module *module* (make-instance 'code-fragment-item :fragment fragment :constraints constraints :reason reason :name name))))))) ;;; External files. (export 'read-module) (defun read-module (pathname &key (truename nil truep) location) "Parse the file at PATHNAME as a module, returning it. This is the main entry point for parsing module files. You may well know the file's TRUENAME already (e.g., because `probe-file' dropped it into your lap) so you can avoid repeating the search by providing it. The LOCATION is the thing which wanted the module imported -- usually a `file-location' object, though it might be anything other than `t' which can be printed in the event of circular imports." (setf pathname (merge-pathnames pathname (make-pathname :type "SOD" :case :common))) (unless truep (setf truename (truename pathname))) (define-module (pathname :location location :truename truename) (with-open-file (f-stream pathname :direction :input) (let* ((*readtable* (copy-readtable)) (char-scanner (make-instance 'charbuf-scanner :stream f-stream)) (scanner (make-instance 'sod-token-scanner :char-scanner char-scanner))) (with-default-error-location (scanner) (with-parser-context (token-scanner-context :scanner scanner) (parse (skip-many () (seq ((pset (parse-property-set scanner)) (nil (error () (plug module scanner pset)))) (check-unused-properties pset)))))))))) (define-pluggable-parser module test (scanner pset) ;; `demo' string `;' (declare (ignore pset)) (with-parser-context (token-scanner-context :scanner scanner) (parse (seq ("demo" (string :string) #\;) (format t ";; DEMO ~S~%" string))))) (define-pluggable-parser module file (scanner pset) ;; `import' string `;' ;; `load' string `;' (declare (ignore pset)) (flet ((common (name type what thunk) (find-file scanner (merge-pathnames name (make-pathname :type type :case :common)) what thunk))) (with-parser-context (token-scanner-context :scanner scanner) (parse (or (seq ("import" (name :string) #\;) (common name "SOD" "module" (lambda (path true) (handler-case (let ((module (read-module path :truename true))) (when module (module-import module) (pushnew module (module-dependencies *module*)))) (file-error (error) (cerror* "Error reading module ~S: ~A" path error)))))) (seq ("load" (name :string) #\;) (common name "LISP" "Lisp file" (lambda (path true) (handler-case (load true :verbose nil :print nil) (error (error) (cerror* "Error loading Lisp file ~S: ~A" path error))))))))))) ;;; Setting properties. (define-pluggable-parser module set (scanner pset) ;; `set' property-list `;' (with-parser-context (token-scanner-context :scanner scanner) (parse (and "set" (lisp (let ((module-pset (module-pset *module*))) (when pset (pset-map (lambda (prop) (add-property module-pset (p-name prop) (p-value prop) :type (p-type prop) :location (p-location prop)) (setf (p-seenp prop) t)) pset)) (parse (skip-many (:min 0) (error (:ignore-unconsumed t) (parse-property scanner module-pset) (skip-until (:keep-end t) #\, #\;)) #\,)))) #\;)))) ;;; Lisp escape. (define-pluggable-parser module lisp (scanner pset) ;; `lisp' s-expression `;' (declare (ignore pset)) (with-parser-context (token-scanner-context :scanner scanner) (parse (seq ((sexp (if (and (eql (token-type scanner) :id) (string= (token-value scanner) "lisp")) (let* ((stream (make-scanner-stream scanner)) (sexp (read stream t))) (scanner-step scanner) (values sexp t t)) (values '((:id "lisp")) nil nil))) #\;) (eval sexp))))) ;;;-------------------------------------------------------------------------- ;;; Class declarations. (export 'class-item) (define-pluggable-parser class-item initfrags (scanner class pset) ;; raw-class-item ::= frag-keyword `{' c-fragment `}' ;; frag-keyword ::= `init' | `teardown' (with-parser-context (token-scanner-context :scanner scanner) (parse (seq ((make (or (seq ("init") #'make-sod-class-initfrag) (seq ("teardown") #'make-sod-class-tearfrag))) (frag (parse-delimited-fragment scanner #\{ #\}))) (funcall make class frag pset scanner))))) (define-pluggable-parser class-item initargs (scanner class pset) ;; initarg-item ::= `initarg' declspec+ init-declarator-list ;; init-declarator ::= declarator [`=' initializer] (with-parser-context (token-scanner-context :scanner scanner) (parse (seq ("initarg" (base-type (parse-c-type scanner)) (nil (skip-many (:min 1) (seq ((declarator (parse-declarator scanner base-type)) (init (? (parse-delimited-fragment scanner #\= (list #\; #\,) :keep-end t)))) (make-sod-user-initarg class (cdr declarator) (car declarator) pset init scanner)) #\,)) #\;))))) (defun parse-class-body (scanner pset name supers) ;; class-body ::= `{' class-item* `}' ;; ;; class-item ::= property-set raw-class-item (with-parser-context (token-scanner-context :scanner scanner) (make-class-type name) (let* ((class (make-sod-class name (mapcar #'find-sod-class supers) pset scanner)) (nick (sod-class-nickname class))) (labels ((parse-maybe-dotted-declarator (base-type) ;; Parse a declarator or dotted-declarator, i.e., one whose ;; centre is ;; ;; maybe-dotted-identifier ::= [id `.'] id ;; ;; A plain identifier is returned as a string, as usual; a ;; dotted identifier is returned as a cons cell of the two ;; names. (parse-declarator scanner base-type :keywordp t :kernel (parser () (seq ((name-a :id) (name-b (? (seq (#\. (id :id)) id)))) (if name-b (cons name-a name-b) name-a))))) (parse-message-item (sub-pset type name) ;; message-item ::= ;; declspec+ declarator -!- (method-body | `;') ;; ;; Don't allow a method-body here if the message takes a ;; varargs list, because we don't have a name for the ;; `va_list' parameter. (let ((message (make-sod-message class name type sub-pset scanner))) (if (varargs-message-p message) (parse #\;) (parse (or #\; (parse-method-item sub-pset type nick name)))))) (parse-method-item (sub-pset type sub-nick name) ;; method-item ::= ;; declspec+ dotted-declarator -!- method-body ;; ;; method-body ::= `{' c-fragment `}' | `extern' `;' (parse (seq ((body (or (seq ("extern" #\;) nil) (parse-delimited-fragment scanner #\{ #\})))) (make-sod-method class sub-nick name type body sub-pset scanner)))) (parse-initializer () ;; initializer ::= `=' c-fragment ;; ;; Return a VALUE, ready for passing to a `sod-initializer' ;; constructor. (parse-delimited-fragment scanner #\= (list #\, #\;) :keep-end t)) (parse-slot-item (sub-pset base-type type name) ;; slot-item ::= ;; declspec+ declarator -!- [initializer] ;; [`,' init-declarator-list] `;' ;; ;; init-declarator-list ::= ;; declarator [initializer] [`,' init-declarator-list] (parse (and (seq ((init (? (parse-initializer)))) (make-sod-slot class name type sub-pset scanner) (when init (make-sod-instance-initializer class nick name init sub-pset scanner))) (skip-many () (seq (#\, (ds (parse-declarator scanner base-type)) (init (? (parse-initializer)))) (make-sod-slot class (cdr ds) (car ds) sub-pset scanner) (when init (make-sod-instance-initializer class nick (cdr ds) init sub-pset scanner)))) #\;))) (parse-initializer-item (sub-pset must-init-p constructor) ;; initializer-item ::= ;; [`class'] -!- slot-initializer-list `;' ;; ;; slot-initializer ::= id `.' id [initializer] (let ((parse-init (if must-init-p #'parse-initializer (parser () (? (parse-initializer)))))) (parse (and (skip-many () (seq ((name-a :id) #\. (name-b :id) (init (funcall parse-init))) (funcall constructor class name-a name-b init sub-pset scanner)) #\,) #\;)))) (class-item-dispatch (sub-pset base-type type name) ;; Logically part of `parse-raw-class-item', but the ;; indentation was getting crazy. We're currently at ;; ;; raw-class-item ::= ;; declspec+ (declarator | dotted-declarator) -!- ... ;; | other-items ;; ;; If the declarator is dotted then this must be a method ;; definition; otherwise it might be a message or slot. (cond ((not (typep type 'c-function-type)) (when (consp name) (cerror*-with-location scanner "Method declarations must have function type.") (setf name (cdr name))) (parse-slot-item sub-pset base-type type name)) ((consp name) (parse-method-item sub-pset type (car name) (cdr name))) (t (parse-message-item sub-pset type name)))) (parse-raw-class-item (sub-pset) ;; raw-class-item ::= ;; message-item ;; | method-item ;; | slot-item ;; | initializer-item ;; | initfrag-item ;; ;; Most of the above begin with declspecs and a declarator ;; (which might be dotted). So we parse that here and ;; dispatch based on what we find. (parse (or (plug class-item scanner class sub-pset) (peek (seq ((ds (parse-c-type scanner)) (dc (parse-maybe-dotted-declarator ds)) (nil (commit)) (nil (class-item-dispatch sub-pset ds (car dc) (cdr dc)))))) (and "class" (parse-initializer-item sub-pset t #'make-sod-class-initializer)) (parse-initializer-item sub-pset nil #'make-sod-instance-initializer))))) (parse (seq (#\{ (nil (skip-many () (seq ((sub-pset (parse-property-set scanner)) (nil (parse-raw-class-item sub-pset))) (check-unused-properties sub-pset)))) (nil (error () #\}))) (finalize-sod-class class) (add-to-module *module* class))))))) (define-pluggable-parser module class (scanner pset) ;; `class' id [`:' id-list] class-body ;; `class' id `;' (with-parser-context (token-scanner-context :scanner scanner) (parse (seq ("class" (name :id) (nil (or (seq (#\;) (make-class-type name)) (seq ((supers (? (seq (#\: (ids (list () :id #\,))) ids))) (nil (parse-class-body scanner pset name supers))))))))))) ;;;----- That's all, folks --------------------------------------------------