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1360 lines
50 KiB
EmacsLisp
1360 lines
50 KiB
EmacsLisp
;;; gud.el --- Grand Unified Debugger mode for gdb, sdb, dbx, or xdb
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;;; under Emacs
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;; Author: Eric S. Raymond <esr@snark.thyrsus.com>
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;; Maintainer: FSF
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;; Version: 1.3
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;; Keywords: unix, tools
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;; Copyright (C) 1992, 1993, 1994 Free Software Foundation, Inc.
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 2, or (at your option)
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;; any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs; see the file COPYING. If not, write to
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;; the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
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;;; Commentary:
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;; The ancestral gdb.el was by W. Schelter <wfs@rascal.ics.utexas.edu>
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;; It was later rewritten by rms. Some ideas were due to Masanobu.
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;; Grand Unification (sdb/dbx support) by Eric S. Raymond <esr@thyrsus.com>
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;; The overloading code was then rewritten by Barry Warsaw <bwarsaw@cen.com>,
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;; who also hacked the mode to use comint.el. Shane Hartman <shane@spr.com>
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;; added support for xdb (HPUX debugger). Rick Sladkey <jrs@world.std.com>
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;; wrote the GDB command completion code. Dave Love <d.love@dl.ac.uk>
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;; added the IRIX kluge and re-implemented the Mips-ish variant.
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;;; Code:
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(require 'comint)
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(require 'etags)
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;; ======================================================================
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;; GUD commands must be visible in C buffers visited by GUD
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(defvar gud-key-prefix "\C-x\C-a"
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"Prefix of all GUD commands valid in C buffers.")
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(global-set-key (concat gud-key-prefix "\C-l") 'gud-refresh)
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(define-key ctl-x-map " " 'gud-break) ;; backward compatibility hack
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;; ======================================================================
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;; the overloading mechanism
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(defun gud-overload-functions (gud-overload-alist)
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"Overload functions defined in GUD-OVERLOAD-ALIST.
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This association list has elements of the form
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(ORIGINAL-FUNCTION-NAME OVERLOAD-FUNCTION)"
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(mapcar
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(function (lambda (p) (fset (car p) (symbol-function (cdr p)))))
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gud-overload-alist))
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(defun gud-massage-args (file args)
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(error "GUD not properly entered"))
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(defun gud-marker-filter (str)
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(error "GUD not properly entered"))
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(defun gud-find-file (f)
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(error "GUD not properly entered"))
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;; ======================================================================
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;; command definition
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;; This macro is used below to define some basic debugger interface commands.
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;; Of course you may use `gud-def' with any other debugger command, including
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;; user defined ones.
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;; A macro call like (gud-def FUNC NAME KEY DOC) expands to a form
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;; which defines FUNC to send the command NAME to the debugger, gives
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;; it the docstring DOC, and binds that function to KEY in the GUD
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;; major mode. The function is also bound in the global keymap with the
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;; GUD prefix.
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(defmacro gud-def (func cmd key &optional doc)
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"Define FUNC to be a command sending STR and bound to KEY, with
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optional doc string DOC. Certain %-escapes in the string arguments
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are interpreted specially if present. These are:
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%f name (without directory) of current source file.
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%d directory of current source file.
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%l number of current source line
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%e text of the C lvalue or function-call expression surrounding point.
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%a text of the hexadecimal address surrounding point
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%p prefix argument to the command (if any) as a number
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The `current' source file is the file of the current buffer (if
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we're in a C file) or the source file current at the last break or
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step (if we're in the GUD buffer).
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The `current' line is that of the current buffer (if we're in a
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source file) or the source line number at the last break or step (if
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we're in the GUD buffer)."
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(list 'progn
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(list 'defun func '(arg)
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(or doc "")
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'(interactive "p")
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(list 'gud-call cmd 'arg))
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(if key
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(list 'define-key
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'(current-local-map)
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(concat "\C-c" key)
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(list 'quote func)))
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(if key
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(list 'global-set-key
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(list 'concat 'gud-key-prefix key)
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(list 'quote func)))))
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;; Where gud-display-frame should put the debugging arrow. This is
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;; set by the marker-filter, which scans the debugger's output for
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;; indications of the current program counter.
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(defvar gud-last-frame nil)
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;; Used by gud-refresh, which should cause gud-display-frame to redisplay
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;; the last frame, even if it's been called before and gud-last-frame has
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;; been set to nil.
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(defvar gud-last-last-frame nil)
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;; All debugger-specific information is collected here.
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;; Here's how it works, in case you ever need to add a debugger to the mode.
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;;
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;; Each entry must define the following at startup:
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;;
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;;<name>
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;; comint-prompt-regexp
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;; gud-<name>-massage-args
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;; gud-<name>-marker-filter
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;; gud-<name>-find-file
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;;
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;; The job of the massage-args method is to modify the given list of
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;; debugger arguments before running the debugger.
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;;
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;; The job of the marker-filter method is to detect file/line markers in
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;; strings and set the global gud-last-frame to indicate what display
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;; action (if any) should be triggered by the marker. Note that only
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;; whatever the method *returns* is displayed in the buffer; thus, you
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;; can filter the debugger's output, interpreting some and passing on
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;; the rest.
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;;
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;; The job of the find-file method is to visit and return the buffer indicated
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;; by the car of gud-tag-frame. This may be a file name, a tag name, or
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;; something else.
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;; ======================================================================
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;; gdb functions
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;;; History of argument lists passed to gdb.
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(defvar gud-gdb-history nil)
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(defun gud-gdb-massage-args (file args)
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(cons "-fullname" (cons file args)))
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;; There's no guarantee that Emacs will hand the filter the entire
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;; marker at once; it could be broken up across several strings. We
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;; might even receive a big chunk with several markers in it. If we
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;; receive a chunk of text which looks like it might contain the
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;; beginning of a marker, we save it here between calls to the
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;; filter.
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(defvar gud-marker-acc "")
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(make-variable-buffer-local 'gud-marker-acc)
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(defun gud-gdb-marker-filter (string)
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(save-match-data
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(setq gud-marker-acc (concat gud-marker-acc string))
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(let ((output ""))
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;; Process all the complete markers in this chunk.
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(while (string-match "\032\032\\([^:\n]*\\):\\([0-9]*\\):.*\n"
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gud-marker-acc)
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(setq
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;; Extract the frame position from the marker.
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gud-last-frame
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(cons (substring gud-marker-acc (match-beginning 1) (match-end 1))
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(string-to-int (substring gud-marker-acc
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(match-beginning 2)
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(match-end 2))))
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;; Append any text before the marker to the output we're going
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;; to return - we don't include the marker in this text.
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output (concat output
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(substring gud-marker-acc 0 (match-beginning 0)))
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;; Set the accumulator to the remaining text.
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gud-marker-acc (substring gud-marker-acc (match-end 0))))
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;; Does the remaining text look like it might end with the
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;; beginning of another marker? If it does, then keep it in
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;; gud-marker-acc until we receive the rest of it. Since we
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;; know the full marker regexp above failed, it's pretty simple to
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;; test for marker starts.
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(if (string-match "\032.*\\'" gud-marker-acc)
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(progn
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;; Everything before the potential marker start can be output.
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(setq output (concat output (substring gud-marker-acc
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0 (match-beginning 0))))
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;; Everything after, we save, to combine with later input.
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(setq gud-marker-acc
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(substring gud-marker-acc (match-beginning 0))))
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(setq output (concat output gud-marker-acc)
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gud-marker-acc ""))
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output)))
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(defun gud-gdb-find-file (f)
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(find-file-noselect f))
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(defvar gdb-minibuffer-local-map nil
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"Keymap for minibuffer prompting of gdb startup command.")
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(if gdb-minibuffer-local-map
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()
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(setq gdb-minibuffer-local-map (copy-keymap minibuffer-local-map))
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(define-key
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gdb-minibuffer-local-map "\C-i" 'comint-dynamic-complete-filename))
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;;;###autoload
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(defun gdb (command-line)
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"Run gdb on program FILE in buffer *gud-FILE*.
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The directory containing FILE becomes the initial working directory
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and source-file directory for your debugger."
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(interactive
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(list (read-from-minibuffer "Run gdb (like this): "
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(if (consp gud-gdb-history)
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(car gud-gdb-history)
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"gdb ")
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gdb-minibuffer-local-map nil
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'(gud-gdb-history . 1))))
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(gud-overload-functions '((gud-massage-args . gud-gdb-massage-args)
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(gud-marker-filter . gud-gdb-marker-filter)
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(gud-find-file . gud-gdb-find-file)
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))
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(gud-common-init command-line)
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(gud-def gud-break "break %f:%l" "\C-b" "Set breakpoint at current line.")
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(gud-def gud-tbreak "tbreak %f:%l" "\C-t" "Set breakpoint at current line.")
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(gud-def gud-remove "clear %l" "\C-d" "Remove breakpoint at current line")
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(gud-def gud-step "step %p" "\C-s" "Step one source line with display.")
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(gud-def gud-stepi "stepi %p" "\C-i" "Step one instruction with display.")
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(gud-def gud-next "next %p" "\C-n" "Step one line (skip functions).")
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(gud-def gud-cont "cont" "\C-r" "Continue with display.")
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(gud-def gud-finish "finish" "\C-f" "Finish executing current function.")
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(gud-def gud-up "up %p" "<" "Up N stack frames (numeric arg).")
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(gud-def gud-down "down %p" ">" "Down N stack frames (numeric arg).")
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(gud-def gud-print "print %e" "\C-p" "Evaluate C expression at point.")
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(local-set-key "\C-i" 'gud-gdb-complete-command)
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(setq comint-prompt-regexp "^(.*gdb[+]?) *")
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(setq paragraph-start comint-prompt-regexp)
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(run-hooks 'gdb-mode-hook)
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)
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;; One of the nice features of GDB is its impressive support for
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;; context-sensitive command completion. We preserve that feature
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;; in the GUD buffer by using a GDB command designed just for Emacs.
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;; The completion process filter indicates when it is finished.
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(defvar gud-gdb-complete-in-progress)
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;; Since output may arrive in fragments we accumulate partials strings here.
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(defvar gud-gdb-complete-string)
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;; We need to know how much of the completion to chop off.
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(defvar gud-gdb-complete-break)
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;; The completion list is constructed by the process filter.
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(defvar gud-gdb-complete-list)
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(defvar gud-comint-buffer nil)
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(defun gud-gdb-complete-command ()
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"Perform completion on the GDB command preceding point.
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This is implemented using the GDB `complete' command which isn't
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available with older versions of GDB."
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(interactive)
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(let* ((end (point))
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(command (save-excursion
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(beginning-of-line)
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(and (looking-at comint-prompt-regexp)
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(goto-char (match-end 0)))
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(buffer-substring (point) end)))
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command-word)
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;; Find the word break. This match will always succeed.
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(string-match "\\(\\`\\| \\)\\([^ ]*\\)\\'" command)
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(setq gud-gdb-complete-break (match-beginning 2)
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command-word (substring command gud-gdb-complete-break))
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(unwind-protect
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(progn
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;; Temporarily install our filter function.
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(gud-overload-functions
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'((gud-marker-filter . gud-gdb-complete-filter)))
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;; Issue the command to GDB.
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(gud-basic-call (concat "complete " command))
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(setq gud-gdb-complete-in-progress t
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gud-gdb-complete-string nil
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gud-gdb-complete-list nil)
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;; Slurp the output.
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(while gud-gdb-complete-in-progress
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(accept-process-output (get-buffer-process gud-comint-buffer))))
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;; Restore the old filter function.
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(gud-overload-functions '((gud-marker-filter . gud-gdb-marker-filter))))
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;; Protect against old versions of GDB.
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(and gud-gdb-complete-list
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(string-match "^Undefined command: \"complete\""
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(car gud-gdb-complete-list))
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(error "This version of GDB doesn't support the `complete' command."))
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;; Sort the list like readline.
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(setq gud-gdb-complete-list
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(sort gud-gdb-complete-list (function string-lessp)))
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;; Remove duplicates.
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(let ((first gud-gdb-complete-list)
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(second (cdr gud-gdb-complete-list)))
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(while second
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(if (string-equal (car first) (car second))
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(setcdr first (setq second (cdr second)))
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(setq first second
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second (cdr second)))))
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;; Let comint handle the rest.
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(comint-dynamic-simple-complete command-word gud-gdb-complete-list)))
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;; The completion process filter is installed temporarily to slurp the
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;; output of GDB up to the next prompt and build the completion list.
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(defun gud-gdb-complete-filter (string)
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(setq string (concat gud-gdb-complete-string string))
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(while (string-match "\n" string)
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(setq gud-gdb-complete-list
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(cons (substring string gud-gdb-complete-break (match-beginning 0))
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gud-gdb-complete-list))
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(setq string (substring string (match-end 0))))
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(if (string-match comint-prompt-regexp string)
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(progn
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(setq gud-gdb-complete-in-progress nil)
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string)
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(progn
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(setq gud-gdb-complete-string string)
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"")))
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;; ======================================================================
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;; sdb functions
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;;; History of argument lists passed to sdb.
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(defvar gud-sdb-history nil)
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(defvar gud-sdb-needs-tags (not (file-exists-p "/var"))
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"If nil, we're on a System V Release 4 and don't need the tags hack.")
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(defvar gud-sdb-lastfile nil)
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(defun gud-sdb-massage-args (file args)
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(cons file args))
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(defun gud-sdb-marker-filter (string)
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(cond
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;; System V Release 3.2 uses this format
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((string-match "\\(^0x\\w* in \\|^\\|\n\\)\\([^:\n]*\\):\\([0-9]*\\):.*\n"
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string)
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(setq gud-last-frame
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(cons
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(substring string (match-beginning 2) (match-end 2))
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(string-to-int
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(substring string (match-beginning 3) (match-end 3))))))
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;; System V Release 4.0
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((string-match "^\\(BREAKPOINT\\|STEPPED\\) process [0-9]+ function [^ ]+ in \\(.+\\)\n"
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string)
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(setq gud-sdb-lastfile
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(substring string (match-beginning 2) (match-end 2))))
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((and gud-sdb-lastfile (string-match "^\\([0-9]+\\):" string))
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(setq gud-last-frame
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(cons
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gud-sdb-lastfile
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(string-to-int
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(substring string (match-beginning 1) (match-end 1))))))
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(t
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(setq gud-sdb-lastfile nil)))
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string)
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(defun gud-sdb-find-file (f)
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(if gud-sdb-needs-tags
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(find-tag-noselect f)
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(find-file-noselect f)))
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;;;###autoload
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(defun sdb (command-line)
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"Run sdb on program FILE in buffer *gud-FILE*.
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The directory containing FILE becomes the initial working directory
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and source-file directory for your debugger."
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(interactive
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(list (read-from-minibuffer "Run sdb (like this): "
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(if (consp gud-sdb-history)
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(car gud-sdb-history)
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"sdb ")
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nil nil
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'(gud-sdb-history . 1))))
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(if (and gud-sdb-needs-tags
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(not (and (boundp 'tags-file-name)
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(stringp tags-file-name)
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(file-exists-p tags-file-name))))
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(error "The sdb support requires a valid tags table to work."))
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(gud-overload-functions '((gud-massage-args . gud-sdb-massage-args)
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(gud-marker-filter . gud-sdb-marker-filter)
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(gud-find-file . gud-sdb-find-file)
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))
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(gud-common-init command-line)
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(gud-def gud-break "%l b" "\C-b" "Set breakpoint at current line.")
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(gud-def gud-tbreak "%l c" "\C-t" "Set temporary breakpoint at current line.")
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(gud-def gud-remove "%l d" "\C-d" "Remove breakpoint at current line")
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(gud-def gud-step "s %p" "\C-s" "Step one source line with display.")
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(gud-def gud-stepi "i %p" "\C-i" "Step one instruction with display.")
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(gud-def gud-next "S %p" "\C-n" "Step one line (skip functions).")
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(gud-def gud-cont "c" "\C-r" "Continue with display.")
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(gud-def gud-print "%e/" "\C-p" "Evaluate C expression at point.")
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(setq comint-prompt-regexp "\\(^\\|\n\\)\\*")
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(setq paragraph-start comint-prompt-regexp)
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(run-hooks 'sdb-mode-hook)
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||
)
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;; ======================================================================
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;; dbx functions
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||
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;;; History of argument lists passed to dbx.
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(defvar gud-dbx-history nil)
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(defun gud-dbx-massage-args (file args)
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(cons file args))
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(defun gud-dbx-marker-filter (string)
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||
(if (or (string-match
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"stopped in .* at line \\([0-9]*\\) in file \"\\([^\"]*\\)\""
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||
string)
|
||
(string-match
|
||
"signal .* in .* at line \\([0-9]*\\) in file \"\\([^\"]*\\)\""
|
||
string))
|
||
(setq gud-last-frame
|
||
(cons
|
||
(substring string (match-beginning 2) (match-end 2))
|
||
(string-to-int
|
||
(substring string (match-beginning 1) (match-end 1))))))
|
||
string)
|
||
|
||
;; Functions for Mips-style dbx. Given the option `-emacs', documented in
|
||
;; OSF1, not necessarily elsewhere, it produces markers similar to gdb's.
|
||
(defvar gud-mips-p
|
||
(or (string-match "^mips-[^-]*-ultrix" system-configuration)
|
||
;; We haven't tested gud on this system:
|
||
(string-match "^mips-[^-]*-riscos" system-configuration)
|
||
;; It's documented on OSF/1.3
|
||
(string-match "^mips-[^-]*-osf1" system-configuration)
|
||
(string-match "^alpha-[^-]*-osf" system-configuration))
|
||
"Non-nil to assume the MIPS/OSF dbx conventions (argument `-emacs').")
|
||
|
||
(defun gud-mipsdbx-massage-args (file args)
|
||
(cons "-emacs" (cons file args)))
|
||
|
||
;; This is just like the gdb one except for the regexps since we need to cope
|
||
;; with an optional breakpoint number in [] before the ^Z^Z
|
||
(defun gud-mipsdbx-marker-filter (string)
|
||
(save-match-data
|
||
(setq gud-marker-acc (concat gud-marker-acc string))
|
||
(let ((output ""))
|
||
|
||
;; Process all the complete markers in this chunk.
|
||
(while (string-match
|
||
;; This is like th gdb marker but with an optional
|
||
;; leading break point number like `[1] '
|
||
"[][ 0-9]*\032\032\\([^:\n]*\\):\\([0-9]*\\):.*\n"
|
||
gud-marker-acc)
|
||
(setq
|
||
|
||
;; Extract the frame position from the marker.
|
||
gud-last-frame
|
||
(cons (substring gud-marker-acc (match-beginning 1) (match-end 1))
|
||
(string-to-int (substring gud-marker-acc
|
||
(match-beginning 2)
|
||
(match-end 2))))
|
||
|
||
;; Append any text before the marker to the output we're going
|
||
;; to return - we don't include the marker in this text.
|
||
output (concat output
|
||
(substring gud-marker-acc 0 (match-beginning 0)))
|
||
|
||
;; Set the accumulator to the remaining text.
|
||
gud-marker-acc (substring gud-marker-acc (match-end 0))))
|
||
|
||
;; Does the remaining text look like it might end with the
|
||
;; beginning of another marker? If it does, then keep it in
|
||
;; gud-marker-acc until we receive the rest of it. Since we
|
||
;; know the full marker regexp above failed, it's pretty simple to
|
||
;; test for marker starts.
|
||
(if (string-match "[][ 0-9]*\032.*\\'" gud-marker-acc)
|
||
(progn
|
||
;; Everything before the potential marker start can be output.
|
||
(setq output (concat output (substring gud-marker-acc
|
||
0 (match-beginning 0))))
|
||
|
||
;; Everything after, we save, to combine with later input.
|
||
(setq gud-marker-acc
|
||
(substring gud-marker-acc (match-beginning 0))))
|
||
|
||
(setq output (concat output gud-marker-acc)
|
||
gud-marker-acc ""))
|
||
|
||
output)))
|
||
|
||
;; The dbx in IRIX is a pain. It doesn't print the file name when
|
||
;; stopping at a breakpoint (but you do get it from the `up' and
|
||
;; `down' commands...). The only way to extract the information seems
|
||
;; to be with a `file' command, although the current line number is
|
||
;; available in $curline. Thus we have to look for output which
|
||
;; appears to indicate a breakpoint. Then we prod the dbx sub-process
|
||
;; to output the information we want with a combination of the
|
||
;; `printf' and `file' commands as a pseudo marker which we can
|
||
;; recognise next time through the marker-filter. This would be like
|
||
;; the gdb marker but you can't get the file name without a newline...
|
||
;; Note that gud-remove won't work since Irix dbx expects a breakpoint
|
||
;; number rather than a line number etc. Maybe this could be made to
|
||
;; work by listing all the breakpoints and picking the one(s) with the
|
||
;; correct line number, but life's too short.
|
||
;; d.love@dl.ac.uk (Dave Love) can be blamed for this
|
||
|
||
(defvar gud-irix-p (string-match "^mips-[^-]*-irix" system-configuration)
|
||
"Non-nil to assume the interface appropriate for IRIX dbx.
|
||
This works in IRIX 4 and probably IRIX 5.")
|
||
;; (It's been tested in IRIX 4 and the output from dbx on IRIX 5 looks
|
||
;; the same.)
|
||
|
||
;; this filter is influenced by the xdb one rather than the gdb one
|
||
(defun gud-irixdbx-marker-filter (string)
|
||
(save-match-data
|
||
(let (result (case-fold-search nil))
|
||
(if (or (string-match comint-prompt-regexp string)
|
||
(string-match ".*\012" string))
|
||
(setq result (concat gud-marker-acc string)
|
||
gud-marker-acc "")
|
||
(setq gud-marker-acc (concat gud-marker-acc string)))
|
||
(if result
|
||
(cond
|
||
;; look for breakpoint or signal indication e.g.:
|
||
;; [2] Process 1267 (pplot) stopped at [params:338 ,0x400ec0]
|
||
;; Process 1281 (pplot) stopped at [params:339 ,0x400ec8]
|
||
;; Process 1270 (pplot) Floating point exception [._read._read:16 ,0x452188]
|
||
((string-match
|
||
"^\\(\\[[0-9]+] \\)?Process +[0-9]+ ([^)]*) [^[]+\\[[^]\n]*]\n"
|
||
result)
|
||
;; prod dbx into printing out the line number and file
|
||
;; name in a form we can grok as below
|
||
(process-send-string (get-buffer-process gud-comint-buffer)
|
||
"printf \"\032\032%1d:\",$curline;file\n"))
|
||
;; look for result of, say, "up" e.g.:
|
||
;; .pplot.pplot(0x800) ["src/pplot.f":261, 0x400c7c]
|
||
;; (this will also catch one of the lines printed by "where")
|
||
((string-match
|
||
"^[^ ][^[]*\\[\"\\([^\"]+\\)\":\\([0-9]+\\), [^]]+]\n"
|
||
result)
|
||
(let ((file (substring result (match-beginning 1)
|
||
(match-end 1))))
|
||
(if (file-exists-p file)
|
||
(setq gud-last-frame
|
||
(cons
|
||
(substring
|
||
result (match-beginning 1) (match-end 1))
|
||
(string-to-int
|
||
(substring
|
||
result (match-beginning 2) (match-end 2)))))))
|
||
result)
|
||
((string-match ; kluged-up marker as above
|
||
"\032\032\\([0-9]*\\):\\(.*\\)\n" result)
|
||
(let ((file (substring result (match-beginning 2) (match-end 2))))
|
||
(if (file-exists-p file)
|
||
(setq gud-last-frame
|
||
(cons
|
||
file
|
||
(string-to-int
|
||
(substring
|
||
result (match-beginning 1) (match-end 1)))))))
|
||
(setq result (substring result 0 (match-beginning 0))))))
|
||
(or result ""))))
|
||
|
||
(defun gud-dbx-find-file (f)
|
||
(find-file-noselect f))
|
||
|
||
;;;###autoload
|
||
(defun dbx (command-line)
|
||
"Run dbx on program FILE in buffer *gud-FILE*.
|
||
The directory containing FILE becomes the initial working directory
|
||
and source-file directory for your debugger."
|
||
(interactive
|
||
(list (read-from-minibuffer "Run dbx (like this): "
|
||
(if (consp gud-dbx-history)
|
||
(car gud-dbx-history)
|
||
"dbx ")
|
||
nil nil
|
||
'(gud-dbx-history . 1))))
|
||
|
||
(gud-overload-functions
|
||
(cond
|
||
(gud-mips-p
|
||
'((gud-massage-args . gud-mipsdbx-massage-args)
|
||
(gud-marker-filter . gud-mipsdbx-marker-filter)
|
||
(gud-find-file . gud-dbx-find-file)))
|
||
(gud-irix-p
|
||
'((gud-massage-args . gud-dbx-massage-args)
|
||
(gud-marker-filter . gud-irixdbx-marker-filter)
|
||
(gud-find-file . gud-dbx-find-file)))
|
||
(t
|
||
'((gud-massage-args . gud-dbx-massage-args)
|
||
(gud-marker-filter . gud-dbx-marker-filter)
|
||
(gud-find-file . gud-dbx-find-file)))))
|
||
|
||
(gud-common-init command-line)
|
||
|
||
(cond
|
||
(gud-mips-p
|
||
(gud-def gud-break "stop at \"%f\":%l"
|
||
"\C-b" "Set breakpoint at current line.")
|
||
(gud-def gud-finish "return" "\C-f" "Finish executing current function."))
|
||
(gud-irix-p
|
||
(gud-def gud-break "stop at \"%d%f\":%l"
|
||
"\C-b" "Set breakpoint at current line.")
|
||
(gud-def gud-finish "return" "\C-f" "Finish executing current function.")
|
||
;; Make dbx give out the source location info that we need.
|
||
(process-send-string (get-buffer-process gud-comint-buffer)
|
||
"printf \"\032\032%1d:\",$curline;file\n"))
|
||
((or (string-match "-sunos" (symbol-name system-type))
|
||
(string-match "-solaris" (symbol-name system-type)))
|
||
;; The following works for both the UCB and SunPro 2.0.1 versions
|
||
;; of dbx. The `stop' is lost using the `\n' separator as in the
|
||
;; default case. Is there a dbx where the newline is actually
|
||
;; necessary? (d.love@dl.ac.uk)
|
||
(gud-def gud-break "file \"%d%f\";stop at %l"
|
||
"\C-b" "Set breakpoint at current line."))
|
||
(t
|
||
(gud-def gud-break "file \"%d%f\"\nstop at %l"
|
||
"\C-b" "Set breakpoint at current line.")))
|
||
|
||
(gud-def gud-remove "clear %l" "\C-d" "Remove breakpoint at current line")
|
||
(gud-def gud-step "step %p" "\C-s" "Step one line with display.")
|
||
(gud-def gud-stepi "stepi %p" "\C-i" "Step one instruction with display.")
|
||
(gud-def gud-next "next %p" "\C-n" "Step one line (skip functions).")
|
||
(gud-def gud-cont "cont" "\C-r" "Continue with display.")
|
||
(gud-def gud-up "up %p" "<" "Up (numeric arg) stack frames.")
|
||
(gud-def gud-down "down %p" ">" "Down (numeric arg) stack frames.")
|
||
(gud-def gud-print "print %e" "\C-p" "Evaluate C expression at point.")
|
||
|
||
(setq comint-prompt-regexp "^[^)\n]*dbx) *")
|
||
(setq paragraph-start comint-prompt-regexp)
|
||
(run-hooks 'dbx-mode-hook)
|
||
)
|
||
|
||
;; ======================================================================
|
||
;; xdb (HP PARISC debugger) functions
|
||
|
||
;;; History of argument lists passed to xdb.
|
||
(defvar gud-xdb-history nil)
|
||
|
||
(defvar gud-xdb-directories nil
|
||
"*A list of directories that xdb should search for source code.
|
||
If nil, only source files in the program directory
|
||
will be known to xdb.
|
||
|
||
The file names should be absolute, or relative to the directory
|
||
containing the executable being debugged.")
|
||
|
||
(defun gud-xdb-massage-args (file args)
|
||
(nconc (let ((directories gud-xdb-directories)
|
||
(result nil))
|
||
(while directories
|
||
(setq result (cons (car directories) (cons "-d" result)))
|
||
(setq directories (cdr directories)))
|
||
(nreverse (cons file result)))
|
||
args))
|
||
|
||
(defun gud-xdb-file-name (f)
|
||
"Transform a relative pathname to a full pathname in xdb mode"
|
||
(let ((result nil))
|
||
(if (file-exists-p f)
|
||
(setq result (expand-file-name f))
|
||
(let ((directories gud-xdb-directories))
|
||
(while directories
|
||
(let ((path (concat (car directories) "/" f)))
|
||
(if (file-exists-p path)
|
||
(setq result (expand-file-name path)
|
||
directories nil)))
|
||
(setq directories (cdr directories)))))
|
||
result))
|
||
|
||
;; xdb does not print the lines all at once, so we have to accumulate them
|
||
(defun gud-xdb-marker-filter (string)
|
||
(let (result)
|
||
(if (or (string-match comint-prompt-regexp string)
|
||
(string-match ".*\012" string))
|
||
(setq result (concat gud-marker-acc string)
|
||
gud-marker-acc "")
|
||
(setq gud-marker-acc (concat gud-marker-acc string)))
|
||
(if result
|
||
(if (or (string-match "\\([^\n \t:]+\\): [^:]+: \\([0-9]+\\):" result)
|
||
(string-match "[^: \t]+:[ \t]+\\([^:]+\\): [^:]+: \\([0-9]+\\):"
|
||
result))
|
||
(let ((line (string-to-int
|
||
(substring result (match-beginning 2) (match-end 2))))
|
||
(file (gud-xdb-file-name
|
||
(substring result (match-beginning 1) (match-end 1)))))
|
||
(if file
|
||
(setq gud-last-frame (cons file line))))))
|
||
(or result "")))
|
||
|
||
(defun gud-xdb-find-file (f)
|
||
(let ((realf (gud-xdb-file-name f)))
|
||
(if realf (find-file-noselect realf))))
|
||
|
||
;;;###autoload
|
||
(defun xdb (command-line)
|
||
"Run xdb on program FILE in buffer *gud-FILE*.
|
||
The directory containing FILE becomes the initial working directory
|
||
and source-file directory for your debugger.
|
||
|
||
You can set the variable 'gud-xdb-directories' to a list of program source
|
||
directories if your program contains sources from more than one directory."
|
||
(interactive
|
||
(list (read-from-minibuffer "Run xdb (like this): "
|
||
(if (consp gud-xdb-history)
|
||
(car gud-xdb-history)
|
||
"xdb ")
|
||
nil nil
|
||
'(gud-xdb-history . 1))))
|
||
(gud-overload-functions '((gud-massage-args . gud-xdb-massage-args)
|
||
(gud-marker-filter . gud-xdb-marker-filter)
|
||
(gud-find-file . gud-xdb-find-file)))
|
||
|
||
(gud-common-init command-line)
|
||
|
||
(gud-def gud-break "b %f:%l" "\C-b" "Set breakpoint at current line.")
|
||
(gud-def gud-tbreak "b %f:%l\\t" "\C-t"
|
||
"Set temporary breakpoint at current line.")
|
||
(gud-def gud-remove "db" "\C-d" "Remove breakpoint at current line")
|
||
(gud-def gud-step "s %p" "\C-s" "Step one line with display.")
|
||
(gud-def gud-next "S %p" "\C-n" "Step one line (skip functions).")
|
||
(gud-def gud-cont "c" "\C-r" "Continue with display.")
|
||
(gud-def gud-up "up %p" "<" "Up (numeric arg) stack frames.")
|
||
(gud-def gud-down "down %p" ">" "Down (numeric arg) stack frames.")
|
||
(gud-def gud-finish "bu\\t" "\C-f" "Finish executing current function.")
|
||
(gud-def gud-print "p %e" "\C-p" "Evaluate C expression at point.")
|
||
|
||
(setq comint-prompt-regexp "^>")
|
||
(setq paragraph-start comint-prompt-regexp)
|
||
(run-hooks 'xdb-mode-hook))
|
||
|
||
;; ======================================================================
|
||
;; perldb functions
|
||
|
||
;;; History of argument lists passed to perldb.
|
||
(defvar gud-perldb-history nil)
|
||
|
||
(defun gud-perldb-massage-args (file args)
|
||
(cons "-d" (cons file (cons "-emacs" args))))
|
||
|
||
;; There's no guarantee that Emacs will hand the filter the entire
|
||
;; marker at once; it could be broken up across several strings. We
|
||
;; might even receive a big chunk with several markers in it. If we
|
||
;; receive a chunk of text which looks like it might contain the
|
||
;; beginning of a marker, we save it here between calls to the
|
||
;; filter.
|
||
(defvar gud-perldb-marker-acc "")
|
||
|
||
(defun gud-perldb-marker-filter (string)
|
||
(save-match-data
|
||
(setq gud-marker-acc (concat gud-marker-acc string))
|
||
(let ((output ""))
|
||
|
||
;; Process all the complete markers in this chunk.
|
||
(while (string-match "\032\032\\([^:\n]*\\):\\([0-9]*\\):.*\n"
|
||
gud-marker-acc)
|
||
(setq
|
||
|
||
;; Extract the frame position from the marker.
|
||
gud-last-frame
|
||
(cons (substring gud-marker-acc (match-beginning 1) (match-end 1))
|
||
(string-to-int (substring gud-marker-acc
|
||
(match-beginning 2)
|
||
(match-end 2))))
|
||
|
||
;; Append any text before the marker to the output we're going
|
||
;; to return - we don't include the marker in this text.
|
||
output (concat output
|
||
(substring gud-marker-acc 0 (match-beginning 0)))
|
||
|
||
;; Set the accumulator to the remaining text.
|
||
gud-marker-acc (substring gud-marker-acc (match-end 0))))
|
||
|
||
;; Does the remaining text look like it might end with the
|
||
;; beginning of another marker? If it does, then keep it in
|
||
;; gud-marker-acc until we receive the rest of it. Since we
|
||
;; know the full marker regexp above failed, it's pretty simple to
|
||
;; test for marker starts.
|
||
(if (string-match "\032.*\\'" gud-marker-acc)
|
||
(progn
|
||
;; Everything before the potential marker start can be output.
|
||
(setq output (concat output (substring gud-marker-acc
|
||
0 (match-beginning 0))))
|
||
|
||
;; Everything after, we save, to combine with later input.
|
||
(setq gud-marker-acc
|
||
(substring gud-marker-acc (match-beginning 0))))
|
||
|
||
(setq output (concat output gud-marker-acc)
|
||
gud-marker-acc ""))
|
||
|
||
output)))
|
||
|
||
(defun gud-perldb-find-file (f)
|
||
(find-file-noselect f))
|
||
|
||
;;;###autoload
|
||
(defun perldb (command-line)
|
||
"Run perldb on program FILE in buffer *gud-FILE*.
|
||
The directory containing FILE becomes the initial working directory
|
||
and source-file directory for your debugger."
|
||
(interactive
|
||
(list (read-from-minibuffer "Run perldb (like this): "
|
||
(if (consp gud-perldb-history)
|
||
(car gud-perldb-history)
|
||
"perl ")
|
||
nil nil
|
||
'(gud-perldb-history . 1))))
|
||
(gud-overload-functions '((gud-massage-args . gud-perldb-massage-args)
|
||
(gud-marker-filter . gud-perldb-marker-filter)
|
||
(gud-find-file . gud-perldb-find-file)
|
||
))
|
||
|
||
(gud-common-init command-line)
|
||
|
||
(gud-def gud-break "b %l" "\C-b" "Set breakpoint at current line.")
|
||
(gud-def gud-remove "d %l" "\C-d" "Remove breakpoint at current line")
|
||
(gud-def gud-step "s" "\C-s" "Step one source line with display.")
|
||
(gud-def gud-next "n" "\C-n" "Step one line (skip functions).")
|
||
(gud-def gud-cont "c" "\C-r" "Continue with display.")
|
||
; (gud-def gud-finish "finish" "\C-f" "Finish executing current function.")
|
||
; (gud-def gud-up "up %p" "<" "Up N stack frames (numeric arg).")
|
||
; (gud-def gud-down "down %p" ">" "Down N stack frames (numeric arg).")
|
||
(gud-def gud-print "%e" "\C-p" "Evaluate perl expression at point.")
|
||
|
||
(setq comint-prompt-regexp "^ DB<[0-9]+> ")
|
||
(setq paragraph-start comint-prompt-regexp)
|
||
(run-hooks 'perldb-mode-hook)
|
||
)
|
||
|
||
;;
|
||
;; End of debugger-specific information
|
||
;;
|
||
|
||
|
||
;;; When we send a command to the debugger via gud-call, it's annoying
|
||
;;; to see the command and the new prompt inserted into the debugger's
|
||
;;; buffer; we have other ways of knowing the command has completed.
|
||
;;;
|
||
;;; If the buffer looks like this:
|
||
;;; --------------------
|
||
;;; (gdb) set args foo bar
|
||
;;; (gdb) -!-
|
||
;;; --------------------
|
||
;;; (the -!- marks the location of point), and we type `C-x SPC' in a
|
||
;;; source file to set a breakpoint, we want the buffer to end up like
|
||
;;; this:
|
||
;;; --------------------
|
||
;;; (gdb) set args foo bar
|
||
;;; Breakpoint 1 at 0x92: file make-docfile.c, line 49.
|
||
;;; (gdb) -!-
|
||
;;; --------------------
|
||
;;; Essentially, the old prompt is deleted, and the command's output
|
||
;;; and the new prompt take its place.
|
||
;;;
|
||
;;; Not echoing the command is easy enough; you send it directly using
|
||
;;; process-send-string, and it never enters the buffer. However,
|
||
;;; getting rid of the old prompt is trickier; you don't want to do it
|
||
;;; when you send the command, since that will result in an annoying
|
||
;;; flicker as the prompt is deleted, redisplay occurs while Emacs
|
||
;;; waits for a response from the debugger, and the new prompt is
|
||
;;; inserted. Instead, we'll wait until we actually get some output
|
||
;;; from the subprocess before we delete the prompt. If the command
|
||
;;; produced no output other than a new prompt, that prompt will most
|
||
;;; likely be in the first chunk of output received, so we will delete
|
||
;;; the prompt and then replace it with an identical one. If the
|
||
;;; command produces output, the prompt is moving anyway, so the
|
||
;;; flicker won't be annoying.
|
||
;;;
|
||
;;; So - when we want to delete the prompt upon receipt of the next
|
||
;;; chunk of debugger output, we position gud-delete-prompt-marker at
|
||
;;; the start of the prompt; the process filter will notice this, and
|
||
;;; delete all text between it and the process output marker. If
|
||
;;; gud-delete-prompt-marker points nowhere, we leave the current
|
||
;;; prompt alone.
|
||
(defvar gud-delete-prompt-marker nil)
|
||
|
||
|
||
(defun gud-mode ()
|
||
"Major mode for interacting with an inferior debugger process.
|
||
|
||
You start it up with one of the commands M-x gdb, M-x sdb, M-x dbx,
|
||
or M-x xdb. Each entry point finishes by executing a hook; `gdb-mode-hook',
|
||
`sdb-mode-hook', `dbx-mode-hook' or `xdb-mode-hook' respectively.
|
||
|
||
After startup, the following commands are available in both the GUD
|
||
interaction buffer and any source buffer GUD visits due to a breakpoint stop
|
||
or step operation:
|
||
|
||
\\[gud-break] sets a breakpoint at the current file and line. In the
|
||
GUD buffer, the current file and line are those of the last breakpoint or
|
||
step. In a source buffer, they are the buffer's file and current line.
|
||
|
||
\\[gud-remove] removes breakpoints on the current file and line.
|
||
|
||
\\[gud-refresh] displays in the source window the last line referred to
|
||
in the gud buffer.
|
||
|
||
\\[gud-step], \\[gud-next], and \\[gud-stepi] do a step-one-line,
|
||
step-one-line (not entering function calls), and step-one-instruction
|
||
and then update the source window with the current file and position.
|
||
\\[gud-cont] continues execution.
|
||
|
||
\\[gud-print] tries to find the largest C lvalue or function-call expression
|
||
around point, and sends it to the debugger for value display.
|
||
|
||
The above commands are common to all supported debuggers except xdb which
|
||
does not support stepping instructions.
|
||
|
||
Under gdb, sdb and xdb, \\[gud-tbreak] behaves exactly like \\[gud-break],
|
||
except that the breakpoint is temporary; that is, it is removed when
|
||
execution stops on it.
|
||
|
||
Under gdb, dbx, and xdb, \\[gud-up] pops up through an enclosing stack
|
||
frame. \\[gud-down] drops back down through one.
|
||
|
||
If you are using gdb or xdb, \\[gud-finish] runs execution to the return from
|
||
the current function and stops.
|
||
|
||
All the keystrokes above are accessible in the GUD buffer
|
||
with the prefix C-c, and in all buffers through the prefix C-x C-a.
|
||
|
||
All pre-defined functions for which the concept make sense repeat
|
||
themselves the appropriate number of times if you give a prefix
|
||
argument.
|
||
|
||
You may use the `gud-def' macro in the initialization hook to define other
|
||
commands.
|
||
|
||
Other commands for interacting with the debugger process are inherited from
|
||
comint mode, which see."
|
||
(interactive)
|
||
(comint-mode)
|
||
(setq major-mode 'gud-mode)
|
||
(setq mode-name "Debugger")
|
||
(setq mode-line-process '(":%s"))
|
||
(use-local-map (copy-keymap comint-mode-map))
|
||
(define-key (current-local-map) "\C-c\C-l" 'gud-refresh)
|
||
(make-local-variable 'gud-last-frame)
|
||
(setq gud-last-frame nil)
|
||
(make-local-variable 'comint-prompt-regexp)
|
||
(make-local-variable 'paragraph-start)
|
||
(make-local-variable 'gud-delete-prompt-marker)
|
||
(setq gud-delete-prompt-marker (make-marker))
|
||
(run-hooks 'gud-mode-hook)
|
||
)
|
||
|
||
;; Chop STRING into words separated by SPC or TAB and return a list of them.
|
||
(defun gud-chop-words (string)
|
||
(let ((i 0) (beg 0)
|
||
(len (length string))
|
||
(words nil))
|
||
(while (< i len)
|
||
(if (memq (aref string i) '(?\t ? ))
|
||
(progn
|
||
(setq words (cons (substring string beg i) words)
|
||
beg (1+ i))
|
||
(while (and (< beg len) (memq (aref string beg) '(?\t ? )))
|
||
(setq beg (1+ beg)))
|
||
(setq i (1+ beg)))
|
||
(setq i (1+ i))))
|
||
(if (< beg len)
|
||
(setq words (cons (substring string beg) words)))
|
||
(nreverse words)))
|
||
|
||
;; Perform initializations common to all debuggers.
|
||
(defun gud-common-init (command-line)
|
||
(let* ((words (gud-chop-words command-line))
|
||
(program (car words))
|
||
(file-word (let ((w (cdr words)))
|
||
(while (and w (= ?- (aref (car w) 0)))
|
||
(setq w (cdr w)))
|
||
(car w)))
|
||
(args (delq file-word (cdr words)))
|
||
(file (and file-word
|
||
(expand-file-name (substitute-in-file-name file-word))))
|
||
(filepart (and file-word (file-name-nondirectory file))))
|
||
(switch-to-buffer (concat "*gud-" filepart "*"))
|
||
(and file-word (setq default-directory (file-name-directory file)))
|
||
(or (bolp) (newline))
|
||
(insert "Current directory is " default-directory "\n")
|
||
(apply 'make-comint (concat "gud-" filepart) program nil
|
||
(if file-word (gud-massage-args file args))))
|
||
(gud-mode)
|
||
(set-process-filter (get-buffer-process (current-buffer)) 'gud-filter)
|
||
(set-process-sentinel (get-buffer-process (current-buffer)) 'gud-sentinel)
|
||
(gud-set-buffer)
|
||
)
|
||
|
||
(defun gud-set-buffer ()
|
||
(cond ((eq major-mode 'gud-mode)
|
||
(setq gud-comint-buffer (current-buffer)))))
|
||
|
||
;; These functions are responsible for inserting output from your debugger
|
||
;; into the buffer. The hard work is done by the method that is
|
||
;; the value of gud-marker-filter.
|
||
|
||
(defun gud-filter (proc string)
|
||
;; Here's where the actual buffer insertion is done
|
||
(let ((inhibit-quit t)
|
||
output)
|
||
(save-excursion
|
||
(set-buffer (process-buffer proc))
|
||
;; If we have been so requested, delete the debugger prompt.
|
||
(if (marker-buffer gud-delete-prompt-marker)
|
||
(progn
|
||
(delete-region (process-mark proc) gud-delete-prompt-marker)
|
||
(set-marker gud-delete-prompt-marker nil)))
|
||
;; Save the process output, checking for source file markers.
|
||
(setq output (gud-marker-filter string))
|
||
;; Check for a filename-and-line number.
|
||
;; Don't display the specified file
|
||
;; unless (1) point is at or after the position where output appears
|
||
;; and (2) this buffer is on the screen.
|
||
(if (and gud-last-frame
|
||
(>= (point) (process-mark proc))
|
||
(get-buffer-window (current-buffer)))
|
||
(gud-display-frame))
|
||
;; Let the comint filter do the actual insertion.
|
||
;; That lets us inherit various comint features.
|
||
(comint-output-filter proc output))))
|
||
|
||
(defun gud-sentinel (proc msg)
|
||
(cond ((null (buffer-name (process-buffer proc)))
|
||
;; buffer killed
|
||
;; Stop displaying an arrow in a source file.
|
||
(setq overlay-arrow-position nil)
|
||
(set-process-buffer proc nil))
|
||
((memq (process-status proc) '(signal exit))
|
||
;; Stop displaying an arrow in a source file.
|
||
(setq overlay-arrow-position nil)
|
||
;; Fix the mode line.
|
||
(setq mode-line-process
|
||
(concat ":"
|
||
(symbol-name (process-status proc))))
|
||
(let* ((obuf (current-buffer)))
|
||
;; save-excursion isn't the right thing if
|
||
;; process-buffer is current-buffer
|
||
(unwind-protect
|
||
(progn
|
||
;; Write something in *compilation* and hack its mode line,
|
||
(set-buffer (process-buffer proc))
|
||
;; Force mode line redisplay soon
|
||
(set-buffer-modified-p (buffer-modified-p))
|
||
(if (eobp)
|
||
(insert ?\n mode-name " " msg)
|
||
(save-excursion
|
||
(goto-char (point-max))
|
||
(insert ?\n mode-name " " msg)))
|
||
;; If buffer and mode line will show that the process
|
||
;; is dead, we can delete it now. Otherwise it
|
||
;; will stay around until M-x list-processes.
|
||
(delete-process proc))
|
||
;; Restore old buffer, but don't restore old point
|
||
;; if obuf is the gud buffer.
|
||
(set-buffer obuf))))))
|
||
|
||
(defun gud-display-frame ()
|
||
"Find and obey the last filename-and-line marker from the debugger.
|
||
Obeying it means displaying in another window the specified file and line."
|
||
(interactive)
|
||
(if gud-last-frame
|
||
(progn
|
||
(gud-set-buffer)
|
||
(gud-display-line (car gud-last-frame) (cdr gud-last-frame))
|
||
(setq gud-last-last-frame gud-last-frame
|
||
gud-last-frame nil))))
|
||
|
||
;; Make sure the file named TRUE-FILE is in a buffer that appears on the screen
|
||
;; and that its line LINE is visible.
|
||
;; Put the overlay-arrow on the line LINE in that buffer.
|
||
;; Most of the trickiness in here comes from wanting to preserve the current
|
||
;; region-restriction if that's possible. We use an explicit display-buffer
|
||
;; to get around the fact that this is called inside a save-excursion.
|
||
|
||
(defun gud-display-line (true-file line)
|
||
(let* ((last-nonmenu-event t) ; Prevent use of dialog box for questions.
|
||
(buffer (gud-find-file true-file))
|
||
(window (display-buffer buffer))
|
||
(pos))
|
||
;;; (if (equal buffer (current-buffer))
|
||
;;; nil
|
||
;;; (setq buffer-read-only nil))
|
||
(save-excursion
|
||
;;; (setq buffer-read-only t)
|
||
(set-buffer buffer)
|
||
(save-restriction
|
||
(widen)
|
||
(goto-line line)
|
||
(setq pos (point))
|
||
(setq overlay-arrow-string "=>")
|
||
(or overlay-arrow-position
|
||
(setq overlay-arrow-position (make-marker)))
|
||
(set-marker overlay-arrow-position (point) (current-buffer)))
|
||
(cond ((or (< pos (point-min)) (> pos (point-max)))
|
||
(widen)
|
||
(goto-char pos))))
|
||
(set-window-point window overlay-arrow-position)))
|
||
|
||
;;; The gud-call function must do the right thing whether its invoking
|
||
;;; keystroke is from the GUD buffer itself (via major-mode binding)
|
||
;;; or a C buffer. In the former case, we want to supply data from
|
||
;;; gud-last-frame. Here's how we do it:
|
||
|
||
(defun gud-format-command (str arg)
|
||
(let ((insource (not (eq (current-buffer) gud-comint-buffer)))
|
||
(frame (or gud-last-frame gud-last-last-frame))
|
||
result)
|
||
(while (and str (string-match "\\([^%]*\\)%\\([adeflp]\\)" str))
|
||
(let ((key (string-to-char (substring str (match-beginning 2))))
|
||
subst)
|
||
(cond
|
||
((eq key ?f)
|
||
(setq subst (file-name-nondirectory (if insource
|
||
(buffer-file-name)
|
||
(car frame)))))
|
||
((eq key ?d)
|
||
(setq subst (file-name-directory (if insource
|
||
(buffer-file-name)
|
||
(car frame)))))
|
||
((eq key ?l)
|
||
(setq subst (if insource
|
||
(save-excursion
|
||
(beginning-of-line)
|
||
(save-restriction (widen)
|
||
(1+ (count-lines 1 (point)))))
|
||
(cdr frame))))
|
||
((eq key ?e)
|
||
(setq subst (find-c-expr)))
|
||
((eq key ?a)
|
||
(setq subst (gud-read-address)))
|
||
((eq key ?p)
|
||
(setq subst (if arg (int-to-string arg) ""))))
|
||
(setq result (concat result
|
||
(substring str (match-beginning 1) (match-end 1))
|
||
subst)))
|
||
(setq str (substring str (match-end 2))))
|
||
;; There might be text left in STR when the loop ends.
|
||
(concat result str)))
|
||
|
||
(defun gud-read-address ()
|
||
"Return a string containing the core-address found in the buffer at point."
|
||
(save-excursion
|
||
(let ((pt (point)) found begin)
|
||
(setq found (if (search-backward "0x" (- pt 7) t) (point)))
|
||
(cond
|
||
(found (forward-char 2)
|
||
(buffer-substring found
|
||
(progn (re-search-forward "[^0-9a-f]")
|
||
(forward-char -1)
|
||
(point))))
|
||
(t (setq begin (progn (re-search-backward "[^0-9]")
|
||
(forward-char 1)
|
||
(point)))
|
||
(forward-char 1)
|
||
(re-search-forward "[^0-9]")
|
||
(forward-char -1)
|
||
(buffer-substring begin (point)))))))
|
||
|
||
(defun gud-call (fmt &optional arg)
|
||
(let ((msg (gud-format-command fmt arg)))
|
||
(message "Command: %s" msg)
|
||
(sit-for 0)
|
||
(gud-basic-call msg)))
|
||
|
||
(defun gud-basic-call (command)
|
||
"Invoke the debugger COMMAND displaying source in other window."
|
||
(interactive)
|
||
(gud-set-buffer)
|
||
(let ((command (concat command "\n"))
|
||
(proc (get-buffer-process gud-comint-buffer)))
|
||
|
||
;; Arrange for the current prompt to get deleted.
|
||
(save-excursion
|
||
(set-buffer gud-comint-buffer)
|
||
(goto-char (process-mark proc))
|
||
(beginning-of-line)
|
||
(if (looking-at comint-prompt-regexp)
|
||
(set-marker gud-delete-prompt-marker (point))))
|
||
(process-send-string proc command)))
|
||
|
||
(defun gud-refresh (&optional arg)
|
||
"Fix up a possibly garbled display, and redraw the arrow."
|
||
(interactive "P")
|
||
(recenter arg)
|
||
(or gud-last-frame (setq gud-last-frame gud-last-last-frame))
|
||
(gud-display-frame))
|
||
|
||
;;; Code for parsing expressions out of C code. The single entry point is
|
||
;;; find-c-expr, which tries to return an lvalue expression from around point.
|
||
;;;
|
||
;;; The rest of this file is a hacked version of gdbsrc.el by
|
||
;;; Debby Ayers <ayers@asc.slb.com>,
|
||
;;; Rich Schaefer <schaefer@asc.slb.com> Schlumberger, Austin, Tx.
|
||
|
||
(defun find-c-expr ()
|
||
"Returns the C expr that surrounds point."
|
||
(interactive)
|
||
(save-excursion
|
||
(let ((p) (expr) (test-expr))
|
||
(setq p (point))
|
||
(setq expr (expr-cur))
|
||
(setq test-expr (expr-prev))
|
||
(while (expr-compound test-expr expr)
|
||
(setq expr (cons (car test-expr) (cdr expr)))
|
||
(goto-char (car expr))
|
||
(setq test-expr (expr-prev)))
|
||
(goto-char p)
|
||
(setq test-expr (expr-next))
|
||
(while (expr-compound expr test-expr)
|
||
(setq expr (cons (car expr) (cdr test-expr)))
|
||
(setq test-expr (expr-next))
|
||
)
|
||
(buffer-substring (car expr) (cdr expr)))))
|
||
|
||
(defun expr-cur ()
|
||
"Returns the expr that point is in; point is set to beginning of expr.
|
||
The expr is represented as a cons cell, where the car specifies the point in
|
||
the current buffer that marks the beginning of the expr and the cdr specifies
|
||
the character after the end of the expr."
|
||
(let ((p (point)) (begin) (end))
|
||
(expr-backward-sexp)
|
||
(setq begin (point))
|
||
(expr-forward-sexp)
|
||
(setq end (point))
|
||
(if (>= p end)
|
||
(progn
|
||
(setq begin p)
|
||
(goto-char p)
|
||
(expr-forward-sexp)
|
||
(setq end (point))
|
||
)
|
||
)
|
||
(goto-char begin)
|
||
(cons begin end)))
|
||
|
||
(defun expr-backward-sexp ()
|
||
"Version of `backward-sexp' that catches errors."
|
||
(condition-case nil
|
||
(backward-sexp)
|
||
(error t)))
|
||
|
||
(defun expr-forward-sexp ()
|
||
"Version of `forward-sexp' that catches errors."
|
||
(condition-case nil
|
||
(forward-sexp)
|
||
(error t)))
|
||
|
||
(defun expr-prev ()
|
||
"Returns the previous expr, point is set to beginning of that expr.
|
||
The expr is represented as a cons cell, where the car specifies the point in
|
||
the current buffer that marks the beginning of the expr and the cdr specifies
|
||
the character after the end of the expr"
|
||
(let ((begin) (end))
|
||
(expr-backward-sexp)
|
||
(setq begin (point))
|
||
(expr-forward-sexp)
|
||
(setq end (point))
|
||
(goto-char begin)
|
||
(cons begin end)))
|
||
|
||
(defun expr-next ()
|
||
"Returns the following expr, point is set to beginning of that expr.
|
||
The expr is represented as a cons cell, where the car specifies the point in
|
||
the current buffer that marks the beginning of the expr and the cdr specifies
|
||
the character after the end of the expr."
|
||
(let ((begin) (end))
|
||
(expr-forward-sexp)
|
||
(expr-forward-sexp)
|
||
(setq end (point))
|
||
(expr-backward-sexp)
|
||
(setq begin (point))
|
||
(cons begin end)))
|
||
|
||
(defun expr-compound-sep (span-start span-end)
|
||
"Returns '.' for '->' & '.', returns ' ' for white space,
|
||
returns '?' for other punctuation."
|
||
(let ((result ? )
|
||
(syntax))
|
||
(while (< span-start span-end)
|
||
(setq syntax (char-syntax (char-after span-start)))
|
||
(cond
|
||
((= syntax ? ) t)
|
||
((= syntax ?.) (setq syntax (char-after span-start))
|
||
(cond
|
||
((= syntax ?.) (setq result ?.))
|
||
((and (= syntax ?-) (= (char-after (+ span-start 1)) ?>))
|
||
(setq result ?.)
|
||
(setq span-start (+ span-start 1)))
|
||
(t (setq span-start span-end)
|
||
(setq result ??)))))
|
||
(setq span-start (+ span-start 1)))
|
||
result))
|
||
|
||
(defun expr-compound (first second)
|
||
"Non-nil if concatenating FIRST and SECOND makes a single C token.
|
||
The two exprs are represented as a cons cells, where the car
|
||
specifies the point in the current buffer that marks the beginning of the
|
||
expr and the cdr specifies the character after the end of the expr.
|
||
Link exprs of the form:
|
||
Expr -> Expr
|
||
Expr . Expr
|
||
Expr (Expr)
|
||
Expr [Expr]
|
||
(Expr) Expr
|
||
[Expr] Expr"
|
||
(let ((span-start (cdr first))
|
||
(span-end (car second))
|
||
(syntax))
|
||
(setq syntax (expr-compound-sep span-start span-end))
|
||
(cond
|
||
((= (car first) (car second)) nil)
|
||
((= (cdr first) (cdr second)) nil)
|
||
((= syntax ?.) t)
|
||
((= syntax ? )
|
||
(setq span-start (char-after (- span-start 1)))
|
||
(setq span-end (char-after span-end))
|
||
(cond
|
||
((= span-start ?) ) t )
|
||
((= span-start ?] ) t )
|
||
((= span-end ?( ) t )
|
||
((= span-end ?[ ) t )
|
||
(t nil))
|
||
)
|
||
(t nil))))
|
||
|
||
(provide 'gud)
|
||
|
||
;;; gud.el ends here
|