;;; semantic-java.el --- Semantic functions for Java ;;; Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 ;;; David Ponce ;; Author: David Ponce ;; X-RCS: $Id: semantic-java.el,v 1.14 2007/02/19 13:37:44 zappo Exp $ ;; This file is not part of GNU Emacs. ;; semantic-java 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, or (at ;; your option) any later version. ;; This software 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 GNU Emacs; see the file COPYING. If not, write to the ;; Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, ;; Boston, MA 02110-1301, USA. ;;; Commentary: ;; ;; Common function for Java parsers. ;;; History: ;; ;;; Code: (require 'semantic) (require 'semantic-ctxt) (require 'semantic-doc) ;;; Lexical analysis ;; (defconst semantic-java-number-regexp (eval-when-compile (concat "\\(" "\\<[0-9]+[.][0-9]+\\([eE][-+]?[0-9]+\\)?[fFdD]?\\>" "\\|" "\\<[0-9]+[.][eE][-+]?[0-9]+[fFdD]?\\>" "\\|" "\\<[0-9]+[.][fFdD]\\>" "\\|" "\\<[0-9]+[.]" "\\|" "[.][0-9]+\\([eE][-+]?[0-9]+\\)?[fFdD]?\\>" "\\|" "\\<[0-9]+[eE][-+]?[0-9]+[fFdD]?\\>" "\\|" "\\<0[xX][0-9a-fA-F]+[lL]?\\>" "\\|" "\\<[0-9]+[lLfFdD]?\\>" "\\)" )) "Lexer regexp to match Java number terminals. Following is the specification of Java number literals. DECIMAL_LITERAL: [1-9][0-9]* ; HEX_LITERAL: 0[xX][0-9a-fA-F]+ ; OCTAL_LITERAL: 0[0-7]* ; INTEGER_LITERAL: [lL]? | [lL]? | [lL]? ; EXPONENT: [eE][+-]?[09]+ ; FLOATING_POINT_LITERAL: [0-9]+[.][0-9]*?[fFdD]? | [.][0-9]+?[fFdD]? | [0-9]+[fFdD]? | [0-9]+?[fFdD] ;") ;;; Parsing ;; (defsubst semantic-java-dim (id) "Split ID string into a pair (NAME . DIM). NAME is ID without trailing brackets: \"[]\". DIM is the dimension of NAME deduced from the number of trailing brackets, or 0 if there is no trailing brackets." (let ((dim (string-match "\\(\\[]\\)+\\'" id))) (if dim (cons (substring id 0 dim) (/ (length (match-string 0 id)) 2)) (cons id 0)))) (defsubst semantic-java-type (tag) "Return the type of TAG, taking care of array notation." (let ((type (semantic-tag-type tag)) (dim (semantic-tag-get-attribute tag :dereference))) (when dim (while (> dim 0) (setq type (concat type "[]") dim (1- dim)))) type)) (defun semantic-java-expand-tag (tag) "Expand compound declarations found in TAG into separate tags. TAG contains compound declarations when its class is `variable', and its name is a list of elements (NAME START . END), where NAME is a compound variable name, and START/END are the bounds of the corresponding compound declaration." (let* ((class (semantic-tag-class tag)) (elts (semantic-tag-name tag)) dim type dim0 elt clone start end xpand) (cond ((and (eq class 'function) (> (cdr (setq dim (semantic-java-dim elts))) 0)) (setq clone (semantic-tag-clone tag (car dim)) xpand (cons clone xpand)) (semantic-tag-put-attribute clone :dereference (cdr dim))) ((eq class 'variable) (or (consp elts) (setq elts (list (list elts)))) (setq dim (semantic-java-dim (semantic-tag-get-attribute tag :type)) type (car dim) dim0 (cdr dim)) (while elts ;; For each compound element, clone the initial tag with the ;; name and bounds of the compound variable declaration. (setq elt (car elts) elts (cdr elts) start (if elts (cadr elt) (semantic-tag-start tag)) end (if xpand (cddr elt) (semantic-tag-end tag)) dim (semantic-java-dim (car elt)) clone (semantic-tag-clone tag (car dim)) xpand (cons clone xpand)) (semantic-tag-put-attribute clone :type type) (semantic-tag-put-attribute clone :dereference (+ dim0 (cdr dim))) (semantic-tag-set-bounds clone start end))) ) xpand)) ;;; Environment ;; ;; Local context ;; (define-mode-local-override semantic-ctxt-scoped-types java-mode (&optional point) "Return a list of type names currently in scope at POINT." (mapcar 'semantic-tag-name (semantic-find-tags-by-class 'type (semantic-find-tag-by-overlay point)))) ;; Prototype handler ;; (defun semantic-java-prototype-function (tag &optional parent color) "Return a function (method) prototype for TAG. Optional argument PARENT is a parent (containing) item. Optional argument COLOR indicates that color should be mixed in. See also `semantic-format-prototype-tag'." (let ((name (semantic-tag-name tag)) (type (semantic-java-type tag)) (tmpl (semantic-tag-get-attribute tag :template-specifier)) (args (semantic-tag-function-arguments tag)) (argp "") arg argt) (while args (setq arg (car args) args (cdr args)) (if (semantic-tag-p arg) (setq argt (if color (semantic--format-colorize-text (semantic-java-type arg) 'type) (semantic-java-type arg)) argp (concat argp argt (if args "," ""))))) (when color (when type (setq type (semantic--format-colorize-text type 'type))) (setq name (semantic--format-colorize-text name 'function))) (concat (or tmpl "") (if tmpl " " "") (or type "") (if type " " "") name "(" argp ")"))) (defun semantic-java-prototype-variable (tag &optional parent color) "Return a variable (field) prototype for TAG. Optional argument PARENT is a parent (containing) item. Optional argument COLOR indicates that color should be mixed in. See also `semantic-format-prototype-tag'." (let ((name (semantic-tag-name tag)) (type (semantic-java-type tag))) (concat (if color (semantic--format-colorize-text type 'type) type) " " (if color (semantic--format-colorize-text name 'variable) name)))) (defun semantic-java-prototype-type (tag &optional parent color) "Return a type (class/interface) prototype for TAG. Optional argument PARENT is a parent (containing) item. Optional argument COLOR indicates that color should be mixed in. See also `semantic-format-prototype-tag'." (let ((name (semantic-tag-name tag)) (type (semantic-tag-type tag)) (tmpl (semantic-tag-get-attribute tag :template-specifier))) (concat type " " (if color (semantic--format-colorize-text name 'type) name) (or tmpl "")))) (define-mode-local-override semantic-format-prototype-tag java-mode (tag &optional parent color) "Return a prototype for TOKEN. Optional argument PARENT is a parent (containing) item. Optional argument COLOR indicates that color should be mixed in." (let ((f (intern-soft (format "semantic-java-prototype-%s" (semantic-tag-class tag))))) (funcall (if (fboundp f) f 'semantic-format-tag-prototype-default) tag parent color))) (semantic-alias-obsolete 'semantic-java-prototype-nonterminal 'semantic-format-prototype-tag-java-mode) ;; Documentation handler ;; (defsubst semantic-java-skip-spaces-backward () "Move point backward, skipping Java whitespaces." (skip-chars-backward " \n\r\t")) (defsubst semantic-java-skip-spaces-forward () "Move point forward, skipping Java whitespaces." (skip-chars-forward " \n\r\t")) (define-mode-local-override semantic-documentation-for-tag java-mode (&optional tag nosnarf) "Find documentation from TAG and return it as a clean string. Java have documentation set in a comment preceeding TAG's definition. Attempt to strip out comment syntactic sugar, unless optional argument NOSNARF is non-nil. If NOSNARF is 'lex, then return the semantic lex token." (when (or tag (setq tag (semantic-current-tag))) (with-current-buffer (semantic-tag-buffer tag) (save-excursion ;; Move the point at token start (goto-char (semantic-tag-start tag)) (semantic-java-skip-spaces-forward) ;; If the point already at "/**" (this occurs after a doc fix) (if (looking-at "/\\*\\*") nil ;; Skip previous spaces (semantic-java-skip-spaces-backward) ;; Ensure point is after "*/" (javadoc block comment end) (condition-case nil (backward-char 2) (error nil)) (when (looking-at "\\*/") ;; Move the point backward across the comment (forward-char 2) ; return just after "*/" (forward-comment -1) ; to skip the entire block )) ;; Verify the point is at "/**" (javadoc block comment start) (if (looking-at "/\\*\\*") (let ((p (point)) (c (semantic-doc-snarf-comment-for-tag 'lex))) (when c ;; Verify that the token just following the doc ;; comment is the current one! (goto-char (semantic-lex-token-end c)) (semantic-java-skip-spaces-forward) (when (eq tag (semantic-current-tag)) (goto-char p) (semantic-doc-snarf-comment-for-tag nosnarf))))) )))) ;;; Javadoc facilities ;; ;; Javadoc elements ;; (defvar semantic-java-doc-line-tags nil "Valid javadoc line tags. Ordered following Sun's Tag Convention at ") (defvar semantic-java-doc-with-name-tags nil "Javadoc tags which have a name.") (defvar semantic-java-doc-with-ref-tags nil "Javadoc tags which have a reference.") ;; Optional javadoc tags by classes of semantic tag ;; (defvar semantic-java-doc-extra-type-tags nil "Optional tags used in class/interface documentation. Ordered following Sun's Tag Convention.") (defvar semantic-java-doc-extra-function-tags nil "Optional tags used in method/constructor documentation. Ordered following Sun's Tag Convention.") (defvar semantic-java-doc-extra-variable-tags nil "Optional tags used in field documentation. Ordered following Sun's Tag Convention.") ;; All javadoc tags by classes of semantic tag ;; (defvar semantic-java-doc-type-tags nil "Tags allowed in class/interface documentation. Ordered following Sun's Tag Convention.") (defvar semantic-java-doc-function-tags nil "Tags allowed in method/constructor documentation. Ordered following Sun's Tag Convention.") (defvar semantic-java-doc-variable-tags nil "Tags allowed in field documentation. Ordered following Sun's Tag Convention.") ;; Access to Javadoc elements ;; (defmacro semantic-java-doc-tag (name) "Return doc tag from NAME. That is @NAME." `(concat "@" ,name)) (defsubst semantic-java-doc-tag-name (tag) "Return name of the doc TAG symbol. That is TAG `symbol-name' without the leading '@'." (substring (symbol-name tag) 1)) (defun semantic-java-doc-keyword-before-p (k1 k2) "Return non-nil if javadoc keyword K1 is before K2." (let* ((t1 (semantic-java-doc-tag k1)) (t2 (semantic-java-doc-tag k2)) (seq1 (and (semantic-lex-keyword-p t1) (plist-get (semantic-lex-keyword-get t1 'javadoc) 'seq))) (seq2 (and (semantic-lex-keyword-p t2) (plist-get (semantic-lex-keyword-get t2 'javadoc) 'seq)))) (if (and (numberp seq1) (numberp seq2)) (<= seq1 seq2) ;; Unknown tags (probably custom ones) are always after official ;; ones and are not themselves ordered. (or (numberp seq1) (and (not seq1) (not seq2)))))) (defun semantic-java-doc-keywords-map (fun &optional property) "Run function FUN for each javadoc keyword. Return the list of FUN results. If optional PROPERTY is non nil only call FUN for javadoc keyword which have a value for PROPERTY. FUN receives two arguments: the javadoc keyword and its associated 'javadoc property list. It can return any value. Nil values are removed from the result list." (delq nil (mapcar #'(lambda (k) (let* ((tag (semantic-java-doc-tag k)) (plist (semantic-lex-keyword-get tag 'javadoc))) (if (or (not property) (plist-get plist property)) (funcall fun k plist)))) semantic-java-doc-line-tags))) ;;; Mode setup ;; (defun semantic-java-doc-setup () "Lazy initialization of javadoc elements." (or semantic-java-doc-line-tags (setq semantic-java-doc-line-tags (sort (mapcar #'semantic-java-doc-tag-name (semantic-lex-keywords 'javadoc)) #'semantic-java-doc-keyword-before-p))) (or semantic-java-doc-with-name-tags (setq semantic-java-doc-with-name-tags (semantic-java-doc-keywords-map #'(lambda (k p) k) 'with-name))) (or semantic-java-doc-with-ref-tags (setq semantic-java-doc-with-ref-tags (semantic-java-doc-keywords-map #'(lambda (k p) k) 'with-ref))) (or semantic-java-doc-extra-type-tags (setq semantic-java-doc-extra-type-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'type (plist-get p 'usage)) k)) 'opt))) (or semantic-java-doc-extra-function-tags (setq semantic-java-doc-extra-function-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'function (plist-get p 'usage)) k)) 'opt))) (or semantic-java-doc-extra-variable-tags (setq semantic-java-doc-extra-variable-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'variable (plist-get p 'usage)) k)) 'opt))) (or semantic-java-doc-type-tags (setq semantic-java-doc-type-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'type (plist-get p 'usage)) k))))) (or semantic-java-doc-function-tags (setq semantic-java-doc-function-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'function (plist-get p 'usage)) k))))) (or semantic-java-doc-variable-tags (setq semantic-java-doc-variable-tags (semantic-java-doc-keywords-map #'(lambda (k p) (if (memq 'variable (plist-get p 'usage)) k))))) ) (provide 'semantic-java) ;;; semantic-java.el ends here