;;; semantic/symref.el --- Symbol Reference API ;; Copyright (C) 2008-2021 Free Software Foundation, Inc. ;; Author: Eric M. Ludlam ;; This file is part of GNU Emacs. ;; GNU Emacs 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 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs 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. If not, see . ;;; Commentary: ;; ;; Semantic Symbol Reference API. ;; ;; Semantic's native parsing tools do not handle symbol references. ;; Tracking such information is a task that requires a huge amount of ;; space and processing not appropriate for an Emacs Lisp program. ;; ;; Many desired tools used in refactoring, however, need to have ;; such references available to them. This API aims to provide a ;; range of functions that can be used to identify references. The ;; API is backed by an OO system that is used to allow multiple ;; external tools to provide the information. ;; ;; The default implementation uses a find/grep combination to do a ;; search. This works ok in small projects. For larger projects, it ;; is important to find an alternate tool to use as a back-end to ;; symref. ;; ;; See the command: `semantic-symref' for an example app using this api. ;; ;; TO USE THIS TOOL ;; ;; The following functions can be used to find different kinds of ;; references. ;; ;; `semantic-symref-find-references-by-name' ;; `semantic-symref-find-file-references-by-name' ;; `semantic-symref-find-text' ;; ;; All the search routines return a class of type ;; `semantic-symref-result'. You can reference the various slots, but ;; you will need the following methods to get extended information. ;; ;; `semantic-symref-result-get-files' ;; `semantic-symref-result-get-tags' ;; ;; ADD A NEW EXTERNAL TOOL ;; ;; To support a new external tool, subclass `semantic-symref-tool-baseclass' ;; and implement the methods. The baseclass provides support for ;; managing external processes that produce parsable output. ;; ;; Your tool should then create an instance of `semantic-symref-result'. (require 'semantic) (eval-when-compile (require 'semantic/find)) ;For semantic-find-tags-* (eval-when-compile (require 'ede/proj)) ;For `metasubproject' warning. (defvar ede-minor-mode) (declare-function data-debug-new-buffer "data-debug") (declare-function data-debug-insert-object-slots "eieio-datadebug") (declare-function ede-toplevel "ede/base") (declare-function ede-project-root-directory "ede/files") (declare-function ede-up-directory "ede/files") ;;; Code: (defcustom semantic-symref-tool 'detect "The active symbol reference tool name. The tool symbol can be `detect', or a symbol that is the name of a tool that can be used for symbol referencing." :type 'symbol :group 'semantic) (make-variable-buffer-local 'semantic-symref-tool) ;;; TOOL SETUP ;; (defvar semantic-symref-tool-alist '( ( (lambda (rootdir) (file-exists-p (expand-file-name "GPATH" rootdir))) . global) ( (lambda (rootdir) (file-exists-p (expand-file-name "ID" rootdir))) . idutils) ( (lambda (rootdir) (file-exists-p (expand-file-name "cscope.out" rootdir))) . cscope ) ) "Alist of tools usable by `semantic-symref'. Each entry is of the form: ( PREDICATE . KEY ) Where PREDICATE is a function that takes a directory name for the root of a project, and returns non-nil if the tool represented by KEY is supported. If no tools are supported, then 'grep is assumed.") (defun semantic-symref-calculate-rootdir () "Calculate the root directory for a symref search. Start with an EDE project, or use the default directory." (let* ((rootproj (when (and (featurep 'ede) ede-minor-mode) (ede-toplevel))) (rootdirbase (if rootproj (ede-project-root-directory rootproj) default-directory))) (if (and rootproj (condition-case nil ;; Hack for subprojects. (oref rootproj metasubproject) (error nil))) (ede-up-directory rootdirbase) rootdirbase))) (defun semantic-symref-detect-symref-tool () "Detect the symref tool to use for the current buffer." (if (not (eq semantic-symref-tool 'detect)) semantic-symref-tool ;; We are to perform a detection for the right tool to use. (let* ((rootdir (semantic-symref-calculate-rootdir)) (tools semantic-symref-tool-alist)) (while (and tools (eq semantic-symref-tool 'detect)) (when (funcall (car (car tools)) rootdir) (setq semantic-symref-tool (cdr (car tools)))) (setq tools (cdr tools))) (when (eq semantic-symref-tool 'detect) (setq semantic-symref-tool 'grep)) semantic-symref-tool))) (defun semantic-symref-instantiate (&rest args) "Instantiate a new symref search object. ARGS are the initialization arguments to pass to the created class." (let* ((srt (symbol-name (semantic-symref-detect-symref-tool))) (class (intern-soft (concat "semantic-symref-tool-" srt))) (inst nil) ) (when (not (class-p class)) (error "Unknown symref tool %s" semantic-symref-tool)) (setq inst (apply 'make-instance class args)) inst)) (defvar semantic-symref-last-result nil "The last calculated symref result.") (defun semantic-symref-data-debug-last-result () "Run the last symref data result in Data Debug." (interactive) (require 'eieio-datadebug) (if semantic-symref-last-result (progn (data-debug-new-buffer "*Symbol Reference ADEBUG*") (data-debug-insert-object-slots semantic-symref-last-result "]")) (message "Empty results."))) ;;; EXTERNAL API ;; ;;;###autoload (defun semantic-symref-find-references-by-name (name &optional scope tool-return) "Find a list of references to NAME in the current project. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'. TOOL-RETURN is an optional symbol, which will be assigned the tool used to perform the search. This was added for use by a test harness." (interactive "sName: ") (let* ((inst (semantic-symref-instantiate :searchfor name :searchtype 'symbol :searchscope (or scope 'project) :resulttype 'line)) (result (semantic-symref-get-result inst))) (when tool-return (set tool-return inst)) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;;###autoload (defun semantic-symref-find-tags-by-name (name &optional scope) "Find a list of tags by NAME in the current project. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'." (interactive "sName: ") (let* ((inst (semantic-symref-instantiate :searchfor name :searchtype 'tagname :searchscope (or scope 'project) :resulttype 'line)) (result (semantic-symref-get-result inst))) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;;###autoload (defun semantic-symref-find-tags-by-regexp (name &optional scope) "Find a list of references to NAME in the current project. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'." (interactive "sName: ") (let* ((inst (semantic-symref-instantiate :searchfor name :searchtype 'tagregexp :searchscope (or scope 'project) :resulttype 'line)) (result (semantic-symref-get-result inst))) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;;###autoload (defun semantic-symref-find-tags-by-completion (name &optional scope) "Find a list of references to NAME in the current project. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'." (interactive "sName: ") (let* ((inst (semantic-symref-instantiate :searchfor name :searchtype 'tagcompletions :searchscope (or scope 'project) :resulttype 'line)) (result (semantic-symref-get-result inst))) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;;###autoload (defun semantic-symref-find-file-references-by-name (name &optional scope) "Find a list of references to NAME in the current project. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'." (interactive "sName: ") (let* ((inst (semantic-symref-instantiate :searchfor name :searchtype 'regexp :searchscope (or scope 'project) :resulttype 'file)) (result (semantic-symref-get-result inst))) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;;###autoload (defun semantic-symref-find-text (text &optional scope) "Find a list of occurrences of TEXT in the current project. TEXT is a regexp formatted for use with grep -E. Optional SCOPE specifies which file set to search. Defaults to `project'. Refers to `semantic-symref-tool', to determine the reference tool to use for the current buffer. Returns an object of class `semantic-symref-result'." (interactive "sGrep -E style Regexp: ") (let* ((inst (semantic-symref-instantiate :searchfor text :searchtype 'regexp :searchscope (or scope 'project) :resulttype 'line)) (result (semantic-symref-get-result inst))) (prog1 (setq semantic-symref-last-result result) (when (called-interactively-p 'interactive) (semantic-symref-data-debug-last-result)))) ) ;;; SYMREF TOOLS ;; ;; The base symref tool provides something to hang new tools off of ;; for finding symbol references. (defclass semantic-symref-tool-baseclass () ((searchfor :initarg :searchfor :type string :documentation "The thing to search for.") (searchtype :initarg :searchtype :type symbol :documentation "The type of search to do. Values could be 'symbol, 'regexp, 'tagname, or 'completion.") (searchscope :initarg :searchscope :type symbol :documentation "The scope to search for. Can be 'project, 'target, or 'file.") (resulttype :initarg :resulttype :type symbol :documentation "The kind of search results desired. Can be `line', `file', or `tag'. The type of result can be converted from `line' to `file', or `line' to `tag', but not from `file' to `line' or `tag'.") ) "Baseclass for all symbol references tools. A symbol reference tool supplies functionality to identify the locations of where different symbols are used. Subclasses should be named `semantic-symref-tool-NAME', where NAME is the name of the tool used in the configuration variable `semantic-symref-tool'." :abstract t) (cl-defmethod semantic-symref-get-result ((tool semantic-symref-tool-baseclass)) "Calculate the results of a search based on TOOL. The symref TOOL should already contain the search criteria." (let ((answer (semantic-symref-perform-search tool)) ) (when answer (let ((answersym (if (eq (oref tool resulttype) 'file) :hit-files (if (stringp (car answer)) :hit-text :hit-lines)))) (semantic-symref-result (oref tool searchfor) answersym answer :created-by tool)) ) )) (cl-defmethod semantic-symref-perform-search ((_tool semantic-symref-tool-baseclass)) "Base search for symref tools should throw an error." (error "Symref tool objects must implement `semantic-symref-perform-search'")) (cl-defmethod semantic-symref-parse-tool-output ((tool semantic-symref-tool-baseclass) outputbuffer) "Parse the entire OUTPUTBUFFER of a symref tool. Calls the method `semantic-symref-parse-tool-output-one-line' over and over until it returns nil." (with-current-buffer outputbuffer (goto-char (point-min)) (let ((result nil) (hit nil)) (while (setq hit (semantic-symref-parse-tool-output-one-line tool)) (setq result (cons hit result))) (nreverse result))) ) (cl-defmethod semantic-symref-parse-tool-output-one-line ((_tool semantic-symref-tool-baseclass)) "Base tool output parser is not implemented." (error "Symref tool objects must implement `semantic-symref-parse-tool-output-one-line'")) ;;; RESULTS ;; ;; The results class and methods provide features for accessing hits. (defclass semantic-symref-result () ((created-by :initarg :created-by :type semantic-symref-tool-baseclass :documentation "Back-pointer to the symref tool creating these results.") (hit-files :initarg :hit-files :type list :documentation "The list of files hit.") (hit-text :initarg :hit-text :type list :documentation "If the result doesn't provide full lines, then fill in hit-text. GNU Global does completion search this way.") (hit-lines :initarg :hit-lines :type list :documentation "The list of line hits. Each element is a cons cell of the form (LINE . FILENAME).") (hit-tags :initarg :hit-tags :type list :documentation "The list of tags with hits in them. Use the `semantic-symref-hit-tags' method to get this list.") ) "The results from a symbol reference search.") (cl-defmethod semantic-symref-result-get-files ((result semantic-symref-result)) "Get the list of files from the symref result RESULT." (if (slot-boundp result 'hit-files) (oref result hit-files) (let* ((lines (oref result hit-lines)) (files (mapcar (lambda (a) (cdr a)) lines)) (ans nil)) (setq ans (list (car files)) files (cdr files)) (dolist (F files) ;; This algorithm for uniquifying the file list depends on the ;; tool in question providing all the hits in the same file ;; grouped together. (when (not (string= F (car ans))) (setq ans (cons F ans)))) (oset result hit-files (nreverse ans)) ) )) (defvar semantic-symref-recently-opened-buffers nil "List of buffers opened by `semantic-symref-result-get-tags'.") (defun semantic-symref-cleanup-recent-buffers-fcn () "Hook function to be used in `post-command-hook' to cleanup buffers. Buffers collected during symref can result in some files being opened multiple times for one operation. This will keep buffers open until the next command is executed." ;;(message "To Clean Up: %S" semantic-symref-recently-opened-buffers) (mapc (lambda (buff) ;; Don't delete any buffers which are being used ;; upon completion of some command. (when (not (get-buffer-window buff)) (kill-buffer buff))) semantic-symref-recently-opened-buffers) (setq semantic-symref-recently-opened-buffers nil) (remove-hook 'post-command-hook 'semantic-symref-cleanup-recent-buffers-fcn) ) (cl-defmethod semantic-symref-result-get-tags ((result semantic-symref-result) &optional open-buffers) "Get the list of tags from the symref result RESULT. Optional OPEN-BUFFERS indicates that the buffers that the hits are in should remain open after scanning. Note: This can be quite slow if most of the hits are not in buffers already." (if (and (slot-boundp result 'hit-tags) (oref result hit-tags)) (oref result hit-tags) ;; Calculate the tags. (let ((lines (oref result hit-lines)) (txt (oref (oref result created-by) searchfor)) (searchtype (oref (oref result created-by) searchtype)) (ans nil) (out nil)) (save-excursion (setq ans (mapcar (lambda (hit) (semantic-symref-hit-to-tag-via-buffer hit txt searchtype open-buffers)) lines))) ;; Kill off dead buffers, unless we were requested to leave them open. (if (not open-buffers) (add-hook 'post-command-hook 'semantic-symref-cleanup-recent-buffers-fcn) ;; Else, just clear the saved buffers so they aren't deleted later. (setq semantic-symref-recently-opened-buffers nil) ) ;; Strip out duplicates. (dolist (T ans) (if (and T (not (semantic-equivalent-tag-p (car out) T))) (setq out (cons T out)) (when T ;; Else, add this line into the existing list of lines. (let ((lines (append (semantic--tag-get-property (car out) :hit) (semantic--tag-get-property T :hit)))) (semantic--tag-put-property (car out) :hit lines))) )) ;; Out is reversed... twice (oset result hit-tags (nreverse out))))) (defun semantic-symref-hit-to-tag-via-db (hit searchtxt searchtype) "Convert the symref HIT into a TAG by looking up the tag via a database. Return the Semantic tag associated with HIT. SEARCHTXT is the text that is being searched for. Used to narrow the in-buffer search. SEARCHTYPE is the type of search (such as 'symbol or 'tagname). If there is no database, or if the searchtype is wrong, return nil." ;; Allowed search types for this mechanism: ;; tagname, tagregexp, tagcompletions (if (not (memq searchtype '(tagname tagregexp tagcompletions))) nil (let* ((file (cdr hit)) ;; FAIL here vv - don't load is not obeyed if no table found. (db (semanticdb-file-table-object file t)) (found (cond ((eq searchtype 'tagname) (semantic-find-tags-by-name searchtxt db)) ((eq searchtype 'tagregexp) (semantic-find-tags-by-name-regexp searchtxt db)) ((eq searchtype 'tagcompletions) (semantic-find-tags-for-completion searchtxt db)))) (hit nil) ) ;; Loop over FOUND to see if we can line up a match with a line number. (when (= (length found) 1) (setq hit (car found))) ;; FAIL here ^^ - symref finds line numbers, but our DB uses character locations. ;; as such, this is a cheat and we will need to give up. hit))) (defun semantic-symref-hit-to-tag-via-buffer (hit searchtxt searchtype &optional open-buffers) "Convert the symref HIT into a TAG by looking up the tag via a buffer. Return the Semantic tag associated with HIT. SEARCHTXT is the text that is being searched for. Used to narrow the in-buffer search. SEARCHTYPE is the type of search (such as 'symbol or 'tagname). Optional OPEN-BUFFERS, when nil will use a faster version of `find-file' when a file needs to be opened. If non-nil, then normal buffer initialization will be used. This function will leave buffers loaded from a file open, but will add buffers that must be opened to `semantic-symref-recently-opened-buffers'. Any caller MUST deal with that variable, either clearing it, or deleting the buffers that were opened." (let* ((line (car hit)) (file (cdr hit)) (buff (find-buffer-visiting file)) (tag nil) ) (cond ;; We have a buffer already. Check it out. (buff (set-buffer buff)) ;; We have a table, but it needs a refresh. ;; This means we should load in that buffer. (t (let ((kbuff (if open-buffers ;; Even if we keep the buffers open, don't ;; let EDE ask lots of questions. (let ((ede-auto-add-method 'never)) (find-file-noselect file t)) ;; When not keeping the buffers open, then ;; don't setup all the fancy froo-froo features ;; either. (semantic-find-file-noselect file t)))) (set-buffer kbuff) (push kbuff semantic-symref-recently-opened-buffers) (semantic-fetch-tags) )) ) ;; Too much baggage in goto-line ;; (goto-line line) (goto-char (point-min)) (forward-line (1- line)) ;; Search forward for the matching text. ;; FIXME: This still fails if the regexp uses something specific ;; to the extended syntax, like grouping. (when (re-search-forward (if (memq searchtype '(regexp tagregexp)) searchtxt (regexp-quote searchtxt)) (point-at-eol) t) (goto-char (match-beginning 0)) ) (setq tag (semantic-current-tag)) ;; If we are searching for a tag, but bound the tag we are looking ;; for, see if it resides in some other parent tag. ;; ;; If there is no parent tag, then we still need to hang the originator ;; in our list. (when (and (eq searchtype 'symbol) (string= (semantic-tag-name tag) searchtxt)) (setq tag (or (semantic-current-tag-parent) tag))) ;; Copy the tag, which adds a :filename property. (when tag (setq tag (semantic-tag-copy tag nil t)) ;; Ad this hit to the tag. (semantic--tag-put-property tag :hit (list line))) tag)) (provide 'semantic/symref) ;; Local variables: ;; generated-autoload-file: "loaddefs.el" ;; generated-autoload-load-name: "semantic/symref" ;; End: ;;; semantic/symref.el ends here