;;; semantic-debug.el --- Language Debugger framework ;;; Copyright (C) 2003, 2004, 2005 Eric M. Ludlam ;; Author: Eric M. Ludlam ;; X-RCS: $Id: semantic-debug.el,v 1.15 2005/09/30 20:19:41 zappo Exp $ ;; This file is not part of GNU Emacs. ;; This 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: ;; ;; To provide better support for debugging parsers, this framework ;; provides the interface for debugging. The work of parsing and ;; controlling and stepping through the parsing work must be implemented ;; by the parser. ;; ;; Fortunatly, the nature of language support files means that the parser ;; may not need to be instrumented first. ;; ;; The debugger uses EIEIO objects. One object controls the user ;; interface, including stepping, data-view, queries. A second ;; object implemented here represents the parser itself. A third represents ;; a parser independent frame which knows how to highlight the parser buffer. ;; Each parser must implement the interface and override any methods as needed. ;; (require 'semantic) (require 'inversion) (inversion-require 'eieio "0.18beta1") ;;; Code: ;;;###autoload (defvar semantic-debug-parser-source nil "For any buffer, the file name (no path) of the parser. This would be a parser for a specific language, not the source to one of the parser generators.") ;;;###autoload (make-variable-buffer-local 'semantic-debug-parser-source) ;;;###autoload (defvar semantic-debug-parser-class nil "Class to create when building a debug parser object.") ;;;###autoload (make-variable-buffer-local 'semantic-debug-parser-class) ;;;###autoload (defvar semantic-debug-enabled nil "Non-nil when debugging a parser.") ;;; Variables used during a debug session. (defvar semantic-debug-current-interface nil "The debugger interface currently active for this buffer.") (defvar semantic-debug-current-parser nil "The parser current active for this buffer.") ;;; User Interface Portion ;; (defclass semantic-debug-interface () ((parser-buffer :initarg :parser-buffer :type buffer :documentation "The buffer containing the parser we are debugging.") (parser-local-map :initarg :parser-local-map :type keymap :documentation "The local keymap originally in the PARSER buffer.") (parser-location :type marker :documentation "A marker representing where we are in the parser buffer.") (source-buffer :initarg :source-buffer :type buffer :documentation "The buffer containing the source we are parsing. The :parser-buffer defines a parser that can parse the text in the :source-buffer.") (source-local-map :initarg :source-local-map :type keymap :documentation "The local keymap originally in the SOURCE buffer.") (source-location :type marker :documentation "A marker representing where we are in the parser buffer.") (data-buffer :initarg :data-buffer :type buffer :documentation "Buffer being used to display some useful data. These buffers are brought into view when layout occurs.") (current-frame :type semantic-debug-frame :documentation "The currently displayed frame.") (overlays :type list :initarg nil :documentation "Any active overlays being used to show the debug position.") ) "Controls action when in `semantic-debug-mode'") ;; Methods (defmethod semantic-debug-set-frame ((iface semantic-debug-interface) frame) "Set the current frame on IFACE to FRAME." (if frame (oset iface current-frame frame) (slot-makeunbound iface 'current-frame))) (defmethod semantic-debug-set-parser-location ((iface semantic-debug-interface) point) "Set the parser location in IFACE to POINT." (save-excursion (set-buffer (oref iface parser-buffer)) (if (not (slot-boundp iface 'parser-location)) (oset iface parser-location (make-marker))) (move-marker (oref iface parser-location) point)) ) (defmethod semantic-debug-set-source-location ((iface semantic-debug-interface) point) "Set the source location in IFACE to POINT." (save-excursion (set-buffer (oref iface source-buffer)) (if (not (slot-boundp iface 'source-location)) (oset iface source-location (make-marker))) (move-marker (oref iface source-location) point)) ) (defmethod semantic-debug-interface-layout ((iface semantic-debug-interface)) "Layout windows in the current frame to facilitate debugging." (delete-other-windows) ;; Deal with the data buffer (when (slot-boundp iface 'data-buffer) (let ((lines (/ (frame-height (selected-frame)) 3)) (cnt (save-excursion (set-buffer (oref iface data-buffer)) (count-lines (point-min) (point-max)))) ) ;; Set the number of lines to 1/3, or the size of the data buffer. (if (< cnt lines) (setq cnt lines)) (split-window-vertically cnt) (switch-to-buffer (oref iface data-buffer)) ) (other-window 1)) ;; Parser (switch-to-buffer (oref iface parser-buffer)) (when (slot-boundp iface 'parser-location) (goto-char (oref iface parser-location))) (split-window-vertically) (other-window 1) ;; Source (switch-to-buffer (oref iface source-buffer)) (when (slot-boundp iface 'source-location) (goto-char (oref iface source-location))) ) (defmethod semantic-debug-highlight-lexical-token ((iface semantic-debug-interface) token) "For IFACE, highlight TOKEN in the source buffer . TOKEN is a lexical token." (set-buffer (oref iface :source-buffer)) (object-add-to-list iface 'overlays (semantic-lex-highlight-token token)) (semantic-debug-set-source-location iface (semantic-lex-token-start token)) ) (defmethod semantic-debug-highlight-rule ((iface semantic-debug-interface) nonterm &optional rule match) "For IFACE, highlight NONTERM in the parser buffer. NONTERM is the name of the rule currently being processed that shows up as a nonterminal (or tag) in the source buffer. If RULE and MATCH indicies are specified, highlight those also." (set-buffer (oref iface :parser-buffer)) (let* ((rules (semantic-find-tags-by-class 'nonterminal (current-buffer))) (nt (semantic-find-first-tag-by-name nonterm rules)) (o nil) ) (when nt ;; I know it is the first symbol appearing in the body of this token. (goto-char (semantic-tag-start nt)) (setq o (semantic-make-overlay (point) (progn (forward-sexp 1) (point)))) (semantic-overlay-put o 'face 'highlight) (object-add-to-list iface 'overlays o) (semantic-debug-set-parser-location iface (semantic-overlay-start o)) (when (and rule match) ;; Rule, an int, is the rule inside the nonterminal we are following. (re-search-forward ":\\s-*") (while (/= 0 rule) (re-search-forward "^\\s-*|\\s-*") (setq rule (1- rule))) ;; Now find the match inside the rule (while (/= 0 match) (forward-sexp 1) (skip-chars-forward " \t") (setq match (1- match))) ;; Now highlight the thingy we find there. (setq o (semantic-make-overlay (point) (progn (forward-sexp 1) (point)))) (semantic-overlay-put o 'face 'highlight) (object-add-to-list iface 'overlays o) ;; If we have a match for a sub-rule, have the parser position ;; move so we can see it in the output window for very long rules. (semantic-debug-set-parser-location iface (semantic-overlay-start o)) )))) (defmethod semantic-debug-unhighlight ((iface semantic-debug-interface)) "Remove all debugging overlays." (mapcar 'semantic-overlay-delete (oref iface overlays)) (oset iface overlays nil)) ;; Call from the parser at a breakpoint (defvar semantic-debug-user-command nil "The command the user is requesting.") ;;;###autoload (defun semantic-debug-break (frame) "Stop parsing now at FRAME. FRAME is an object that represents the parser's view of the current state of the world. This function enters a recursive edit. It returns on an `exit-recursive-edit', or if someone uses one of the `semantic-debug-mode' commands. It returns the command specified. Parsers need to take action on different types of return values." (save-window-excursion ;; Set up displaying information (semantic-debug-mode t) (unwind-protect (progn (semantic-debug-frame-highlight frame) (semantic-debug-interface-layout semantic-debug-current-interface) (condition-case nil ;; Enter recursive edit... wait for user command. (recursive-edit) (error nil))) (semantic-debug-unhighlight semantic-debug-current-interface) (semantic-debug-mode nil)) ;; Find the requested user state. Do something. (let ((returnstate semantic-debug-user-command)) (setq semantic-debug-user-command nil) returnstate) )) ;;; Frame ;; ;; A frame can represent the state at a break point. (defclass semantic-debug-frame () ( ) "One frame representation.") (defmethod semantic-debug-frame-highlight ((frame semantic-debug-frame)) "Highlight one parser frame." ) (defmethod semantic-debug-frame-info ((frame semantic-debug-frame)) "Display info about this one parser frame." ) ;;; Major Mode ;; (defvar semantic-debug-mode-map (let ((km (make-sparse-keymap))) (define-key km "n" 'semantic-debug-next) (define-key km " " 'semantic-debug-next) (define-key km "s" 'semantic-debug-step) (define-key km "u" 'semantic-debug-up) (define-key km "d" 'semantic-debug-down) (define-key km "f" 'semantic-debug-fail-match) (define-key km "h" 'semantic-debug-print-state) (define-key km "s" 'semantic-debug-jump-to-source) (define-key km "p" 'semantic-debug-jump-to-parser) (define-key km "q" 'semantic-debug-quit) (define-key km "a" 'semantic-debug-abort) (define-key km "g" 'semantic-debug-go) (define-key km "b" 'semantic-debug-set-breakpoint) ;; Some boring bindings. (define-key km "e" 'eval-expression) km) "Keymap used when in semantic-debug-node.") (defun semantic-debug-mode (onoff) "Turn `semantic-debug-mode' on and off. Argument ONOFF is non-nil when we are entering debug mode. \\{semantic-debug-mode-map}" (let ((iface semantic-debug-current-interface)) (if onoff ;; Turn it on (save-excursion (set-buffer (oref iface parser-buffer)) ;; Install our map onto this buffer (use-local-map semantic-debug-mode-map) ;; Make the buffer read only (toggle-read-only 1) (set-buffer (oref iface source-buffer)) ;; Use our map in the source buffer also (use-local-map semantic-debug-mode-map) ;; Make the buffer read only (toggle-read-only 1) ;; Hooks (run-hooks 'semantic-debug-mode-hooks) ) ;; Restore old mode information (save-excursion (set-buffer (oref semantic-debug-current-interface parser-buffer)) (use-local-map (oref semantic-debug-current-interface parser-local-map)) ) (save-excursion (set-buffer (oref semantic-debug-current-interface source-buffer)) (use-local-map (oref semantic-debug-current-interface source-local-map)) ) (run-hooks 'semantic-debug-exit-hooks) ))) ;;;###autoload (defun semantic-debug () "Parse the current buffer and run in debug mode." (interactive) (if semantic-debug-current-interface (error "You are already in a debug session")) (if (not semantic-debug-parser-class) (error "This major mode does not support parser debugging")) ;; Clear the cache to force a full reparse. (semantic-clear-toplevel-cache) ;; Do the parse (let ((semantic-debug-enabled t) ;; Create an interface (semantic-debug-current-interface (let ((parserb (semantic-debug-find-parser-source))) (semantic-debug-interface "Debug Interface" :parser-buffer parserb :parser-local-map (save-excursion (set-buffer parserb) (current-local-map)) :source-buffer (current-buffer) :source-local-map (current-local-map) ))) ;; Create a parser debug interface (semantic-debug-current-parser (funcall semantic-debug-parser-class "parser")) ) ;; We could recurse into a parser while debugging. ;; Is that a problem? (semantic-fetch-tags) ;; We should turn the auto-parser back on, but don't do it for ;; now until the debugger is working well. )) (defun semantic-debug-find-parser-source () "Return a buffer containing the parser source file for the current buffer. The parser needs to be on the load path, or this routine returns nil." (if (not semantic-debug-parser-source) (error "No parser is associated with this buffer")) (let ((parser (locate-library semantic-debug-parser-source t))) (if parser (find-file-noselect parser) (error "Cannot find parser source. It should be on the load-path")))) ;;; Debugger commands ;; (defun semantic-debug-next () "Perform one parser operation. In the recursive parser, this steps past one match rule. In other parsers, this may be just like `semantic-debug-step'." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-next parser) (exit-recursive-edit) ) ) (defun semantic-debug-step () "Perform one parser operation." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-step parser) (exit-recursive-edit) ) ) (defun semantic-debug-up () "Move highlighting representation up one level." (interactive) (message "Not implemented yet.") ) (defun semantic-debug-down () "Move highlighting representation down one level." (interactive) (message "Not implemented yet.") ) (defun semantic-debug-fail-match () "Artificially fail the current match." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-fail parser) (exit-recursive-edit) ) ) (defun semantic-debug-print-state () "Show interesting parser state." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-print-state parser) ) ) (defun semantic-debug-jump-to-source () "Move cursor to the source code being parsed at the current lexical token." (interactive) (let* ((interface semantic-debug-current-interface) (buf (oref interface source-buffer))) (if (get-buffer-window buf) (progn (select-frame (window-frame (get-buffer-window buf))) (select-window (get-buffer-window buf))) ;; Technically, this should do a window layout operation (switch-to-buffer buf)) ) ) (defun semantic-debug-jump-to-parser () "Move cursor to the parser being debugged." (interactive) (let* ((interface semantic-debug-current-interface) (buf (oref interface parser-buffer))) (if (get-buffer-window buf) (progn (select-frame (window-frame (get-buffer-window buf))) (select-window (get-buffer-window buf))) ;; Technically, this should do a window layout operation (switch-to-buffer buf)) ) ) (defun semantic-debug-quit () "Exit debug mode, blowing all stack, and leaving the parse incomplete. Do not update any tokens already parsed." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-quit parser) (exit-recursive-edit) ) ) (defun semantic-debug-abort () "Abort one level of debug mode, blowing all stack." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-abort parser) (exit-recursive-edit) ) ) (defun semantic-debug-go () "Continue parsing till finish or breakpoint." (interactive) (let ((parser semantic-debug-current-parser)) (semantic-debug-parser-go parser) (exit-recursive-edit) ) ) (defun semantic-debug-set-breakpoint () "Set a breakpoint at the current rule location." (interactive) (let ((parser semantic-debug-current-parser) ;; Get the location as semantic tokens. (location (semantic-current-tag)) ) (if location (semantic-debug-parser-break parser location) (error "Not on a rule")) ) ) ;;; Debugger superclass ;; (defclass semantic-debug-parser () ( ) "Represents a parser and its state. When implementing the debug parser you can add extra functionality by overriding one of the command methods. Be sure to use `call-next-method' so that the debug command is saved, and passed down to your parser later." :abstract t) (defmethod semantic-debug-parser-next ((parser semantic-debug-parser)) "Execute next for this PARSER." (setq semantic-debug-user-command 'next) ) (defmethod semantic-debug-parser-step ((parser semantic-debug-parser)) "Execute a step for this PARSER." (setq semantic-debug-user-command 'step) ) (defmethod semantic-debug-parser-go ((parser semantic-debug-parser)) "Continue executiong in this PARSER until the next breakpoint." (setq semantic-debug-user-command 'go) ) (defmethod semantic-debug-parser-fail ((parser semantic-debug-parser)) "Continue executiong in this PARSER until the next breakpoint." (setq semantic-debug-user-command 'fail) ) (defmethod semantic-debug-parser-quit ((parser semantic-debug-parser)) "Continue executiong in this PARSER until the next breakpoint." (setq semantic-debug-user-command 'quit) ) (defmethod semantic-debug-parser-abort ((parser semantic-debug-parser)) "Continue executiong in this PARSER until the next breakpoint." (setq semantic-debug-user-command 'abort) ) (defmethod semantic-debug-parser-print-state ((parser semantic-debug-parser)) "Print state for this PARSER at the current breakpoint." (with-slots (current-frame) semantic-debug-current-interface (when current-frame (semantic-debug-frame-info current-frame) ))) (defmethod semantic-debug-parser-break ((parser semantic-debug-parser)) "Set a breakpoint for this PARSER." ) ;; Stack stuff (defmethod semantic-debug-parser-fames ((parser semantic-debug-parser)) "Return a list of frames for the current parser. A frame is of the form: ( .. .what ? .. ) " (error "Parser has not implemented frame values") ) (provide 'semantic-debug) ;;; semantic-debug.el ends here