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* calc/calc-yank.el (calc-edit-mode, calc-edit-cancel): * emacs-lisp/debug.el (cancel-debug-on-entry): * epg.el (epg-error-to-string): * files.el (recover-file): * lpr.el (lpr-buffer, print-buffer, lpr-region, print-region): * mail/emacsbug.el (report-emacs-bug-hook): * mail/sendmail.el (mail-recover): * ses.el (ses-yank-resize): * term/ns-win.el (ns-print-buffer): Spelling fixes in diagnostics, mostly for "canceled" with one L. * epg.el (epg-key-capability-alist): Rename from misspelled version. All uses changed. * obsolete/xesam.el (xesam-all-fields): Fix misspelled field name.
980 lines
39 KiB
EmacsLisp
980 lines
39 KiB
EmacsLisp
;;; semantic/edit.el --- Edit Management for Semantic
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;; Copyright (C) 1999-2014 Free Software Foundation, Inc.
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;; Author: Eric M. Ludlam <zappo@gnu.org>
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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 3 of the License, or
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;; (at your option) 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. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;;
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;; In Semantic 1.x, changes were handled in a simplistic manner, where
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;; tags that changed were reparsed one at a time. Any other form of
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;; edit were managed through a full reparse.
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;;
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;; This code attempts to minimize the number of times a full reparse
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;; needs to occur. While overlays and tags will continue to be
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;; recycled in the simple case, new cases where tags are inserted
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;; or old tags removed from the original list are handled.
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;;
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;;; NOTES FOR IMPROVEMENT
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;;
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;; Work done by the incremental parser could be improved by the
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;; following:
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;;
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;; 1. Tags created could have as a property an overlay marking a region
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;; of themselves that can be edited w/out affecting the definition of
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;; that tag.
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;;
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;; 2. Tags w/ positioned children could have a property of an
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;; overlay marking the region in themselves that contain the
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;; children. This could be used to better improve splicing near
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;; the beginning and end of the child lists.
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;;
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;;; BUGS IN INCREMENTAL PARSER
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;;
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;; 1. Changes in the whitespace between tags could extend a
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;; following tag. These will be marked as merely unmatched
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;; syntax instead.
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;;
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;; 2. Incremental parsing while a new function is being typed in
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;; sometimes gets a chance only when lists are incomplete,
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;; preventing correct context identification.
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;;
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(require 'semantic)
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;;; Code:
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(defvar semantic-after-partial-cache-change-hook nil
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"Normal hook run after the buffer cache has been updated.
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This hook will run when the cache has been partially reparsed.
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Partial reparses are incurred when a user edits a buffer, and only the
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modified sections are rescanned.
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Hook functions must take one argument, which is the list of tags
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updated in the current buffer.
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For language specific hooks, make sure you define this as a local hook.")
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(define-obsolete-variable-alias 'semantic-change-hooks
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'semantic-change-functions "24.3")
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(defvar semantic-change-functions
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'(semantic-edits-change-function-handle-changes)
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"Abnormal hook run when semantic detects a change in a buffer.
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Each hook function must take three arguments, identical to the
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common hook `after-change-functions'.")
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(defvar semantic-reparse-needed-change-hook nil
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"Hooks run when a user edit is detected as needing a reparse.
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For language specific hooks, make sure you define this as a local hook.
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Not used yet; part of the next generation reparse mechanism.")
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(defvar semantic-no-reparse-needed-change-hook nil
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"Hooks run when a user edit is detected as not needing a reparse.
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If the hook returns non-nil, then declare that a reparse is needed.
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For language specific hooks, make sure you define this as a local hook.
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Not used yet; part of the next generation reparse mechanism.")
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(define-obsolete-variable-alias 'semantic-edits-new-change-hooks
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'semantic-edits-new-change-functions "24.3")
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(defvar semantic-edits-new-change-functions nil
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"Abnormal hook run when a new change is found.
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Functions must take one argument representing an overlay on that change.")
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(define-obsolete-variable-alias 'semantic-edits-delete-change-hooks
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'semantic-edits-delete-change-functions "24.3")
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(defvar semantic-edits-delete-change-functions nil
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"Abnormal hook run before a change overlay is deleted.
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Deleted changes occur when multiple changes are merged.
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Functions must take one argument representing an overlay being deleted.")
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(defvar semantic-edits-move-change-hook nil
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"Abnormal hook run after a change overlay is moved.
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Changes move when a new change overlaps an old change. The old change
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will be moved.
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Functions must take one argument representing an overlay being moved.")
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(define-obsolete-variable-alias 'semantic-edits-reparse-change-hooks
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'semantic-edits-reparse-change-functions "24.3")
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(defvar semantic-edits-reparse-change-functions nil
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"Abnormal hook run after a change results in a reparse.
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Functions are called before the overlay is deleted, and after the
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incremental reparse.")
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(defvar semantic-edits-incremental-reparse-failed-hook nil
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"Hook run after the incremental parser fails.
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When this happens, the buffer is marked as needing a full reparse.")
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(semantic-varalias-obsolete 'semantic-edits-incremental-reparse-failed-hooks
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'semantic-edits-incremental-reparse-failed-hook "23.2")
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(defcustom semantic-edits-verbose-flag nil
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"Non-nil means the incremental parser is verbose.
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If nil, errors are still displayed, but informative messages are not."
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:group 'semantic
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:type 'boolean)
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;;; Change State management
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;;
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;; Manage a series of overlays that define changes recently
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;; made to the current buffer.
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;;;###autoload
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(defun semantic-change-function (start end length)
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"Provide a mechanism for semantic tag management.
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Argument START, END, and LENGTH specify the bounds of the change."
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(setq semantic-unmatched-syntax-cache-check t)
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(let ((inhibit-point-motion-hooks t)
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)
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(save-match-data
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(run-hook-with-args 'semantic-change-functions start end length)
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)))
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(defun semantic-changes-in-region (start end &optional buffer)
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"Find change overlays which exist in whole or in part between START and END.
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Optional argument BUFFER is the buffer to search for changes in."
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(save-excursion
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(if buffer (set-buffer buffer))
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(let ((ol (semantic-overlays-in (max start (point-min))
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(min end (point-max))))
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(ret nil))
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(while ol
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(when (semantic-overlay-get (car ol) 'semantic-change)
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(setq ret (cons (car ol) ret)))
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(setq ol (cdr ol)))
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(sort ret #'(lambda (a b) (< (semantic-overlay-start a)
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(semantic-overlay-start b)))))))
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(defun semantic-edits-change-function-handle-changes (start end length)
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"Run whenever a buffer controlled by `semantic-mode' change.
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Tracks when and how the buffer is re-parsed.
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Argument START, END, and LENGTH specify the bounds of the change."
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;; We move start/end by one so that we can merge changes that occur
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;; just before, or just after. This lets simple typing capture everything
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;; into one overlay.
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(let ((changes-in-change (semantic-changes-in-region (1- start) (1+ end)))
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)
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(semantic-parse-tree-set-needs-update)
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(if (not changes-in-change)
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(let ((o (semantic-make-overlay start end)))
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(semantic-overlay-put o 'semantic-change t)
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;; Run the hooks safely. When hooks blow it, our dirty
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;; function will be removed from the list of active change
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;; functions.
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(condition-case nil
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(run-hook-with-args 'semantic-edits-new-change-functions o)
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(error nil)))
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(let ((tmp changes-in-change))
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;; Find greatest bounds of all changes
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(while tmp
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(when (< (semantic-overlay-start (car tmp)) start)
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(setq start (semantic-overlay-start (car tmp))))
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(when (> (semantic-overlay-end (car tmp)) end)
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(setq end (semantic-overlay-end (car tmp))))
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(setq tmp (cdr tmp)))
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;; Move the first found overlay, recycling that overlay.
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(semantic-overlay-move (car changes-in-change) start end)
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(condition-case nil
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(run-hook-with-args 'semantic-edits-move-change-hooks
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(car changes-in-change))
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(error nil))
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(setq changes-in-change (cdr changes-in-change))
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;; Delete other changes. They are now all bound here.
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(while changes-in-change
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(condition-case nil
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(run-hook-with-args 'semantic-edits-delete-change-functions
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(car changes-in-change))
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(error nil))
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(semantic-overlay-delete (car changes-in-change))
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(setq changes-in-change (cdr changes-in-change))))
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)))
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(defsubst semantic-edits-flush-change (change)
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"Flush the CHANGE overlay."
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(condition-case nil
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(run-hook-with-args 'semantic-edits-delete-change-functions
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change)
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(error nil))
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(semantic-overlay-delete change))
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(defun semantic-edits-flush-changes ()
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"Flush the changes in the current buffer."
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(let ((changes (semantic-changes-in-region (point-min) (point-max))))
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(while changes
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(semantic-edits-flush-change (car changes))
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(setq changes (cdr changes))))
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)
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(defun semantic-edits-change-in-one-tag-p (change hits)
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"Return non-nil of the overlay CHANGE exists solely in one leaf tag.
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HITS is the list of tags that CHANGE is in. It can have more than
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one tag in it if the leaf tag is within a parent tag."
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(and (< (semantic-tag-start (car hits))
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(semantic-overlay-start change))
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(> (semantic-tag-end (car hits))
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(semantic-overlay-end change))
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;; Recurse on the rest. If this change is inside all
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;; of these tags, then they are all leaves or parents
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;; of the smallest tag.
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(or (not (cdr hits))
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(semantic-edits-change-in-one-tag-p change (cdr hits))))
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)
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;;; Change/Tag Query functions
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;;
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;; A change (region of space) can effect tags in different ways.
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;; These functions perform queries on a buffer to determine different
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;; ways that a change effects a buffer.
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;;
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;; NOTE: After debugging these, replace below to no longer look
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;; at point and mark (via comments I assume.)
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(defsubst semantic-edits-os (change)
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"For testing: Start of CHANGE, or smaller of (point) and (mark)."
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(if change (semantic-overlay-start change)
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(if (< (point) (mark)) (point) (mark))))
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(defsubst semantic-edits-oe (change)
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"For testing: End of CHANGE, or larger of (point) and (mark)."
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(if change (semantic-overlay-end change)
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(if (> (point) (mark)) (point) (mark))))
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(defun semantic-edits-change-leaf-tag (change)
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"A leaf tag which completely encompasses CHANGE.
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If change overlaps a tag, but is not encompassed in it, return nil.
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Use `semantic-edits-change-overlap-leaf-tag'.
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If CHANGE is completely encompassed in a tag, but overlaps sub-tags,
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return nil."
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(let* ((start (semantic-edits-os change))
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(end (semantic-edits-oe change))
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(tags (nreverse
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(semantic-find-tag-by-overlay-in-region
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start end))))
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;; A leaf is always first in this list
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(if (and tags
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(<= (semantic-tag-start (car tags)) start)
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(> (semantic-tag-end (car tags)) end))
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;; Ok, we have a match. If this tag has children,
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;; we have to do more tests.
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(let ((chil (semantic-tag-components (car tags))))
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(if (not chil)
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;; Simple leaf.
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(car tags)
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;; For this type, we say that we encompass it if the
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;; change occurs outside the range of the children.
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(if (or (not (semantic-tag-with-position-p (car chil)))
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(> start (semantic-tag-end (nth (1- (length chil)) chil)))
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(< end (semantic-tag-start (car chil))))
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;; We have modifications to the definition of this parent
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;; so we have to reparse the whole thing.
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(car tags)
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;; We actually modified an area between some children.
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;; This means we should return nil, as that case is
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;; calculated by someone else.
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nil)))
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nil)))
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(defun semantic-edits-change-between-tags (change)
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"Return a cache list of tags surrounding CHANGE.
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The returned list is the CONS cell in the master list pointing to
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a tag just before CHANGE. The CDR will have the tag just after CHANGE.
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CHANGE cannot encompass or overlap a leaf tag.
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If CHANGE is fully encompassed in a tag that has children, and
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this change occurs between those children, this returns non-nil.
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See `semantic-edits-change-leaf-tag' for details on parents."
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(let* ((start (semantic-edits-os change))
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(end (semantic-edits-oe change))
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(tags (nreverse
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(semantic-find-tag-by-overlay-in-region
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start end)))
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(list-to-search nil)
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(found nil))
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(if (not tags)
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(setq list-to-search semantic--buffer-cache)
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;; A leaf is always first in this list
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(if (and (< (semantic-tag-start (car tags)) start)
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(> (semantic-tag-end (car tags)) end))
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;; We are completely encompassed in a tag.
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(if (setq list-to-search
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(semantic-tag-components (car tags)))
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;; Ok, we are completely encompassed within the first tag
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;; entry, AND that tag has children. This means that change
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;; occurred outside of all children, but inside some tag
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;; with children.
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(if (or (not (semantic-tag-with-position-p (car list-to-search)))
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(> start (semantic-tag-end
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(nth (1- (length list-to-search))
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list-to-search)))
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(< end (semantic-tag-start (car list-to-search))))
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;; We have modifications to the definition of this parent
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;; and not between it's children. Clear the search list.
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(setq list-to-search nil)))
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;; Search list is nil.
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))
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;; If we have a search list, let's go. Otherwise nothing.
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(while (and list-to-search (not found))
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(if (cdr list-to-search)
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;; We end when the start of the CDR is after the end of our
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;; asked change.
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(if (< (semantic-tag-start (cadr list-to-search)) end)
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(setq list-to-search (cdr list-to-search))
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(setq found t))
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(setq list-to-search nil)))
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;; Return it. If it is nil, there is a logic bug, and we need
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;; to avoid this bit of logic anyway.
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list-to-search
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))
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(defun semantic-edits-change-over-tags (change)
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"Return a cache list of tags surrounding a CHANGE encompassing tags.
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CHANGE must not only include all overlapped tags (excepting possible
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parent tags) in their entirety. In this case, the change may be deleting
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or moving whole tags.
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The return value is a vector.
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Cell 0 is a list of all tags completely encompassed in change.
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Cell 1 is the cons cell into a master parser cache starting with
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the cell which occurs BEFORE the first position of CHANGE.
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Cell 2 is the parent of cell 1, or nil for the buffer cache.
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This function returns nil if any tag covered by change is not
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completely encompassed.
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See `semantic-edits-change-leaf-tag' for details on parents."
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(let* ((start (semantic-edits-os change))
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(end (semantic-edits-oe change))
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(tags (nreverse
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(semantic-find-tag-by-overlay-in-region
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start end)))
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(parent nil)
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(overlapped-tags nil)
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inner-start inner-end
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(list-to-search nil))
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;; By the time this is already called, we know that it is
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;; not a leaf change, nor a between tag change. That leaves
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;; an overlap, and this condition.
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;; A leaf is always first in this list.
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;; Is the leaf encompassed in this change?
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(if (and tags
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(>= (semantic-tag-start (car tags)) start)
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(<= (semantic-tag-end (car tags)) end))
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(progn
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;; We encompass one whole change.
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(setq overlapped-tags (list (car tags))
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inner-start (semantic-tag-start (car tags))
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inner-end (semantic-tag-end (car tags))
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tags (cdr tags))
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;; Keep looping while tags are inside the change.
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(while (and tags
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(>= (semantic-tag-start (car tags)) start)
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(<= (semantic-tag-end (car tags)) end))
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;; Check if this new all-encompassing tag is a parent
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;; of that which went before. Only check end because
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;; we know that start is less than inner-start since
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;; tags was sorted on that.
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(if (> (semantic-tag-end (car tags)) inner-end)
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;; This is a parent. Drop the children found
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;; so far.
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(setq overlapped-tags (list (car tags))
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inner-start (semantic-tag-start (car tags))
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inner-end (semantic-tag-end (car tags))
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)
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;; It is not a parent encompassing tag
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(setq overlapped-tags (cons (car tags)
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overlapped-tags)
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inner-start (semantic-tag-start (car tags))))
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(setq tags (cdr tags)))
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(if (not tags)
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;; There are no tags left, and all tags originally
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;; found are encompassed by the change. Setup our list
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;; from the cache
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(setq list-to-search semantic--buffer-cache);; We have a tag outside the list. Check for
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;; We know we have a parent because it would
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;; completely cover the change. A tag can only
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;; do that if it is a parent after we get here.
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(when (and tags
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(< (semantic-tag-start (car tags)) start)
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(> (semantic-tag-end (car tags)) end))
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;; We have a parent. Stuff in the search list.
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(setq parent (car tags)
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list-to-search (semantic-tag-components parent))
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;; If the first of TAGS is a parent (see above)
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;; then clear out the list. All other tags in
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;; here must therefore be parents of the car.
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(setq tags nil)
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;; One last check, If start is before the first
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;; tag or after the last, we may have overlap into
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;; the characters that make up the definition of
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;; the tag we are parsing.
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(when (or (semantic-tag-with-position-p (car list-to-search))
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(< start (semantic-tag-start
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(car list-to-search)))
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(> end (semantic-tag-end
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(nth (1- (length list-to-search))
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list-to-search))))
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;; We have a problem
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(setq list-to-search nil
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parent nil))))
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(when list-to-search
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;; Ok, return the vector only if all TAGS are
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;; confirmed as the lineage of `overlapped-tags'
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;; which must have a value by now.
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;; Loop over the search list to find the preceding CDR.
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;; Fortunately, (car overlapped-tags) happens to be
|
|
;; the first tag positionally.
|
|
(let ((tokstart (semantic-tag-start (car overlapped-tags))))
|
|
(while (and list-to-search
|
|
;; Assume always (car (cdr list-to-search)).
|
|
;; A thrown error will be captured nicely, but
|
|
;; that case shouldn't happen.
|
|
|
|
;; We end when the start of the CDR is after the
|
|
;; end of our asked change.
|
|
(cdr list-to-search)
|
|
(< (semantic-tag-start (car (cdr list-to-search)))
|
|
tokstart)
|
|
(setq list-to-search (cdr list-to-search)))))
|
|
;; Create the return vector
|
|
(vector overlapped-tags
|
|
list-to-search
|
|
parent)
|
|
))
|
|
nil)))
|
|
|
|
;;; Default Incremental Parser
|
|
;;
|
|
;; Logic about how to group changes for effective reparsing and splicing.
|
|
|
|
(defun semantic-parse-changes-failed (&rest args)
|
|
"Signal that Semantic failed to parse changes.
|
|
That is, display a message by passing all ARGS to `format', then throw
|
|
a 'semantic-parse-changes-failed exception with value t."
|
|
(when semantic-edits-verbose-flag
|
|
(message "Semantic parse changes failed: %S"
|
|
(apply 'format args)))
|
|
(throw 'semantic-parse-changes-failed t))
|
|
|
|
(defsubst semantic-edits-incremental-fail ()
|
|
"When the incremental parser fails, we mark that we need a full reparse."
|
|
;;(debug)
|
|
(semantic-parse-tree-set-needs-rebuild)
|
|
(when semantic-edits-verbose-flag
|
|
(message "Force full reparse (%s)"
|
|
(buffer-name (current-buffer))))
|
|
(run-hooks 'semantic-edits-incremental-reparse-failed-hook))
|
|
|
|
;;;###autoload
|
|
(defun semantic-edits-incremental-parser ()
|
|
"Incrementally reparse the current buffer.
|
|
Incremental parser allows semantic to only reparse those sections of
|
|
the buffer that have changed. This function depends on
|
|
`semantic-edits-change-function-handle-changes' setting up change
|
|
overlays in the current buffer. Those overlays are analyzed against
|
|
the semantic cache to see what needs to be changed."
|
|
(let ((changed-tags
|
|
;; Don't use `semantic-safe' here to explicitly catch errors
|
|
;; and reset the parse tree.
|
|
(catch 'semantic-parse-changes-failed
|
|
(if debug-on-error
|
|
(semantic-edits-incremental-parser-1)
|
|
(condition-case err
|
|
(semantic-edits-incremental-parser-1)
|
|
(error
|
|
(message "incremental parser error: %S"
|
|
(error-message-string err))
|
|
t))))))
|
|
(when (eq changed-tags t)
|
|
;; Force a full reparse.
|
|
(semantic-edits-incremental-fail)
|
|
(setq changed-tags nil))
|
|
changed-tags))
|
|
|
|
(defmacro semantic-edits-assert-valid-region ()
|
|
"Assert that parse-start and parse-end are sorted correctly."
|
|
;;; (if (> parse-start parse-end)
|
|
;;; (error "Bug is %s !> %d! Buff min/max = [ %d %d ]"
|
|
;;; parse-start parse-end
|
|
;;; (point-min) (point-max)))
|
|
)
|
|
|
|
(defun semantic-edits-incremental-parser-1 ()
|
|
"Incrementally reparse the current buffer.
|
|
Return the list of tags that changed.
|
|
If the incremental parse fails, throw a 'semantic-parse-changes-failed
|
|
exception with value t, that can be caught to schedule a full reparse.
|
|
This function is for internal use by `semantic-edits-incremental-parser'."
|
|
(let* ((changed-tags nil)
|
|
(debug-on-quit t) ; try to find this annoying bug!
|
|
(changes (semantic-changes-in-region
|
|
(point-min) (point-max)))
|
|
(tags nil) ;tags found at changes
|
|
(newf-tags nil) ;newfound tags in change
|
|
(parse-start nil) ;location to start parsing
|
|
(parse-end nil) ;location to end parsing
|
|
(parent-tag nil) ;parent of the cache list.
|
|
(cache-list nil) ;list of children within which
|
|
;we incrementally reparse.
|
|
(reparse-symbol nil) ;The ruled we start at for reparse.
|
|
(change-group nil) ;changes grouped in this reparse
|
|
(last-cond nil) ;track the last case used.
|
|
;query this when debugging to find
|
|
;source of bugs.
|
|
)
|
|
(or changes
|
|
;; If we were called, and there are no changes, then we
|
|
;; don't know what to do. Force a full reparse.
|
|
(semantic-parse-changes-failed "Don't know what to do"))
|
|
;; Else, we have some changes. Loop over them attempting to
|
|
;; patch things up.
|
|
(while changes
|
|
;; Calculate the reparse boundary.
|
|
;; We want to take some set of changes, and group them
|
|
;; together into a small change group. One change forces
|
|
;; a reparse of a larger region (the size of some set of
|
|
;; tags it encompasses.) It may contain several tags.
|
|
;; That region may have other changes in it (several small
|
|
;; changes in one function, for example.)
|
|
;; Optimize for the simple cases here, but try to handle
|
|
;; complex ones too.
|
|
|
|
(while (and changes ; we still have changes
|
|
(or (not parse-start)
|
|
;; Below, if the change we are looking at
|
|
;; is not the first change for this
|
|
;; iteration, and it starts before the end
|
|
;; of current parse region, then it is
|
|
;; encompassed within the bounds of tags
|
|
;; modified by the previous iteration's
|
|
;; change.
|
|
(< (semantic-overlay-start (car changes))
|
|
parse-end)))
|
|
|
|
;; REMOVE LATER
|
|
(if (eq (car changes) (car change-group))
|
|
(semantic-parse-changes-failed
|
|
"Possible infinite loop detected"))
|
|
|
|
;; Store this change in this change group.
|
|
(setq change-group (cons (car changes) change-group))
|
|
|
|
(cond
|
|
;; Is this is a new parse group?
|
|
((not parse-start)
|
|
(setq last-cond "new group")
|
|
(let (tmp)
|
|
(cond
|
|
|
|
;;;; Are we encompassed all in one tag?
|
|
((setq tmp (semantic-edits-change-leaf-tag (car changes)))
|
|
(setq last-cond "Encompassed in tag")
|
|
(setq tags (list tmp)
|
|
parse-start (semantic-tag-start tmp)
|
|
parse-end (semantic-tag-end tmp)
|
|
)
|
|
(semantic-edits-assert-valid-region))
|
|
|
|
;;;; Did the change occur between some tags?
|
|
((setq cache-list (semantic-edits-change-between-tags
|
|
(car changes)))
|
|
(setq last-cond "Between and not overlapping tags")
|
|
;; The CAR of cache-list is the tag just before
|
|
;; our change, but wasn't modified. Hmmm.
|
|
;; Bound our reparse between these two tags
|
|
(setq tags nil
|
|
parent-tag
|
|
(car (semantic-find-tag-by-overlay
|
|
parse-start)))
|
|
(cond
|
|
;; A change at the beginning of the buffer.
|
|
;; Feb 06 -
|
|
;; IDed when the first cache-list tag is after
|
|
;; our change, meaning there is nothing before
|
|
;; the change.
|
|
((> (semantic-tag-start (car cache-list))
|
|
(semantic-overlay-end (car changes)))
|
|
(setq last-cond "Beginning of buffer")
|
|
(setq parse-start
|
|
;; Don't worry about parents since
|
|
;; there there would be an exact
|
|
;; match in the tag list otherwise
|
|
;; and the routine would fail.
|
|
(point-min)
|
|
parse-end
|
|
(semantic-tag-start (car cache-list)))
|
|
(semantic-edits-assert-valid-region)
|
|
)
|
|
;; A change stuck on the first surrounding tag.
|
|
((= (semantic-tag-end (car cache-list))
|
|
(semantic-overlay-start (car changes)))
|
|
(setq last-cond "Beginning of Tag")
|
|
;; Reparse that first tag.
|
|
(setq parse-start
|
|
(semantic-tag-start (car cache-list))
|
|
parse-end
|
|
(semantic-overlay-end (car changes))
|
|
tags
|
|
(list (car cache-list)))
|
|
(semantic-edits-assert-valid-region)
|
|
)
|
|
;; A change at the end of the buffer.
|
|
((not (car (cdr cache-list)))
|
|
(setq last-cond "End of buffer")
|
|
(setq parse-start (semantic-tag-end
|
|
(car cache-list))
|
|
parse-end (point-max))
|
|
(semantic-edits-assert-valid-region)
|
|
)
|
|
(t
|
|
(setq last-cond "Default")
|
|
(setq parse-start
|
|
(semantic-tag-end (car cache-list))
|
|
parse-end
|
|
(semantic-tag-start (car (cdr cache-list)))
|
|
)
|
|
(semantic-edits-assert-valid-region))))
|
|
|
|
;;;; Did the change completely overlap some number of tags?
|
|
((setq tmp (semantic-edits-change-over-tags
|
|
(car changes)))
|
|
(setq last-cond "Overlap multiple tags")
|
|
;; Extract the information
|
|
(setq tags (aref tmp 0)
|
|
cache-list (aref tmp 1)
|
|
parent-tag (aref tmp 2))
|
|
;; We can calculate parse begin/end by checking
|
|
;; out what is in TAGS. The one near start is
|
|
;; always first. Make sure the reparse includes
|
|
;; the `whitespace' around the snarfed tags.
|
|
;; Since cache-list is positioned properly, use it
|
|
;; to find that boundary.
|
|
(if (eq (car tags) (car cache-list))
|
|
;; Beginning of the buffer!
|
|
(let ((end-marker (nth (length tags)
|
|
cache-list)))
|
|
(setq parse-start (point-min))
|
|
(if end-marker
|
|
(setq parse-end
|
|
(semantic-tag-start end-marker))
|
|
(setq parse-end (semantic-overlay-end
|
|
(car changes))))
|
|
(semantic-edits-assert-valid-region)
|
|
)
|
|
;; Middle of the buffer.
|
|
(setq parse-start
|
|
(semantic-tag-end (car cache-list)))
|
|
;; For the end, we need to scoot down some
|
|
;; number of tags. We 1+ the length of tags
|
|
;; because we want to skip the first tag
|
|
;; (remove 1-) then want the tag after the end
|
|
;; of the list (1+)
|
|
(let ((end-marker (nth (1+ (length tags)) cache-list)))
|
|
(if end-marker
|
|
(setq parse-end (semantic-tag-start end-marker))
|
|
;; No marker. It is the last tag in our
|
|
;; list of tags. Only possible if END
|
|
;; already matches the end of that tag.
|
|
(setq parse-end
|
|
(semantic-overlay-end (car changes)))))
|
|
(semantic-edits-assert-valid-region)
|
|
))
|
|
|
|
;;;; Unhandled case.
|
|
;; Throw error, and force full reparse.
|
|
((semantic-parse-changes-failed "Unhandled change group")))
|
|
))
|
|
;; Is this change inside the previous parse group?
|
|
;; We already checked start.
|
|
((< (semantic-overlay-end (car changes)) parse-end)
|
|
(setq last-cond "in bounds")
|
|
nil)
|
|
;; This change extends the current parse group.
|
|
;; Find any new tags, and see how to append them.
|
|
((semantic-parse-changes-failed
|
|
(setq last-cond "overlap boundary")
|
|
"Unhandled secondary change overlapping boundary"))
|
|
)
|
|
;; Prepare for the next iteration.
|
|
(setq changes (cdr changes)))
|
|
|
|
;; By the time we get here, all TAGS are children of
|
|
;; some parent. They should all have the same start symbol
|
|
;; since that is how the multi-tag parser works. Grab
|
|
;; the reparse symbol from the first of the returned tags.
|
|
;;
|
|
;; Feb '06 - If reparse-symbol is nil, then they are top level
|
|
;; tags. (I'm guessing.) Is this right?
|
|
(setq reparse-symbol
|
|
(semantic--tag-get-property (car (or tags cache-list))
|
|
'reparse-symbol))
|
|
;; Find a parent if not provided.
|
|
(and (not parent-tag) tags
|
|
(setq parent-tag
|
|
(semantic-find-tag-parent-by-overlay
|
|
(car tags))))
|
|
;; We can do the same trick for our parent and resulting
|
|
;; cache list.
|
|
(unless cache-list
|
|
(if parent-tag
|
|
(setq cache-list
|
|
;; We need to get all children in case we happen
|
|
;; to have a mix of positioned and non-positioned
|
|
;; children.
|
|
(semantic-tag-components parent-tag))
|
|
;; Else, all the tags since there is no parent.
|
|
;; It sucks to have to use the full buffer cache in
|
|
;; this case because it can be big. Failure to provide
|
|
;; however results in a crash.
|
|
(setq cache-list semantic--buffer-cache)
|
|
))
|
|
;; Use the boundary to calculate the new tags found.
|
|
(setq newf-tags (semantic-parse-region
|
|
parse-start parse-end reparse-symbol))
|
|
;; Make sure all these tags are given overlays.
|
|
;; They have already been cooked by the parser and just
|
|
;; need the overlays.
|
|
(let ((tmp newf-tags))
|
|
(while tmp
|
|
(semantic--tag-link-to-buffer (car tmp))
|
|
(setq tmp (cdr tmp))))
|
|
|
|
;; See how this change lays out.
|
|
(cond
|
|
|
|
;;;; Whitespace change
|
|
((and (not tags) (not newf-tags))
|
|
;; A change that occurred outside of any existing tags
|
|
;; and there are no new tags to replace it.
|
|
(when semantic-edits-verbose-flag
|
|
(message "White space changes"))
|
|
nil
|
|
)
|
|
|
|
;;;; New tags in old whitespace area.
|
|
((and (not tags) newf-tags)
|
|
;; A change occurred outside existing tags which added
|
|
;; a new tag. We need to splice these tags back
|
|
;; into the cache at the right place.
|
|
(semantic-edits-splice-insert newf-tags parent-tag cache-list)
|
|
|
|
(setq changed-tags
|
|
(append newf-tags changed-tags))
|
|
|
|
(when semantic-edits-verbose-flag
|
|
(message "Inserted tags: (%s)"
|
|
(semantic-format-tag-name (car newf-tags))))
|
|
)
|
|
|
|
;;;; Old tags removed
|
|
((and tags (not newf-tags))
|
|
;; A change occurred where pre-existing tags were
|
|
;; deleted! Remove the tag from the cache.
|
|
(semantic-edits-splice-remove tags parent-tag cache-list)
|
|
|
|
(setq changed-tags
|
|
(append tags changed-tags))
|
|
|
|
(when semantic-edits-verbose-flag
|
|
(message "Deleted tags: (%s)"
|
|
(semantic-format-tag-name (car tags))))
|
|
)
|
|
|
|
;;;; One tag was updated.
|
|
((and (= (length tags) 1) (= (length newf-tags) 1))
|
|
;; One old tag was modified, and it is replaced by
|
|
;; One newfound tag. Splice the new tag into the
|
|
;; position of the old tag.
|
|
;; Do the splice.
|
|
(semantic-edits-splice-replace (car tags) (car newf-tags))
|
|
;; Add this tag to our list of changed toksns
|
|
(setq changed-tags (cons (car tags) changed-tags))
|
|
;; Debug
|
|
(when semantic-edits-verbose-flag
|
|
(message "Update Tag Table: %s"
|
|
(semantic-format-tag-name (car tags) nil t)))
|
|
;; Flush change regardless of above if statement.
|
|
)
|
|
|
|
;;;; Some unhandled case.
|
|
((semantic-parse-changes-failed "Don't know what to do")))
|
|
|
|
;; We got this far, and we didn't flag a full reparse.
|
|
;; Clear out this change group.
|
|
(while change-group
|
|
(semantic-edits-flush-change (car change-group))
|
|
(setq change-group (cdr change-group)))
|
|
|
|
;; Don't increment change here because an earlier loop
|
|
;; created change-groups.
|
|
(setq parse-start nil)
|
|
)
|
|
;; Mark that we are done with this glop
|
|
(semantic-parse-tree-set-up-to-date)
|
|
;; Return the list of tags that changed. The caller will
|
|
;; use this information to call hooks which can fix themselves.
|
|
changed-tags))
|
|
|
|
;; Make it the default changes parser
|
|
;;;###autoload
|
|
(defalias 'semantic-parse-changes-default
|
|
'semantic-edits-incremental-parser)
|
|
|
|
;;; Cache Splicing
|
|
;;
|
|
;; The incremental parser depends on the ability to parse up sections
|
|
;; of the file, and splice the results back into the cache. There are
|
|
;; three types of splices. A REPLACE, an ADD, and a REMOVE. REPLACE
|
|
;; is one of the simpler cases, as the starting cons cell representing
|
|
;; the old tag can be used to auto-splice in. ADD and REMOVE
|
|
;; require scanning the cache to find the correct location so that the
|
|
;; list can be fiddled.
|
|
(defun semantic-edits-splice-remove (oldtags parent cachelist)
|
|
"Remove OLDTAGS from PARENT's CACHELIST.
|
|
OLDTAGS are tags in the current buffer, preferably linked
|
|
together also in CACHELIST.
|
|
PARENT is the parent tag containing OLDTAGS.
|
|
CACHELIST should be the children from PARENT, but may be
|
|
pre-positioned to a convenient location."
|
|
(let* ((first (car oldtags))
|
|
(last (nth (1- (length oldtags)) oldtags))
|
|
(chil (if parent
|
|
(semantic-tag-components parent)
|
|
semantic--buffer-cache))
|
|
(cachestart cachelist)
|
|
(cacheend nil)
|
|
)
|
|
;; First in child list?
|
|
(if (eq first (car chil))
|
|
;; First tags in the cache are being deleted.
|
|
(progn
|
|
(when semantic-edits-verbose-flag
|
|
(message "To Remove First Tag: (%s)"
|
|
(semantic-format-tag-name first)))
|
|
;; Find the last tag
|
|
(setq cacheend chil)
|
|
(while (and cacheend (not (eq last (car cacheend))))
|
|
(setq cacheend (cdr cacheend)))
|
|
;; The spliceable part is after cacheend.. so move cacheend
|
|
;; one more tag.
|
|
(setq cacheend (cdr cacheend))
|
|
;; Splice the found end tag into the cons cell
|
|
;; owned by the current top child.
|
|
(setcar chil (car cacheend))
|
|
(setcdr chil (cdr cacheend))
|
|
(when (not cacheend)
|
|
;; No cacheend.. then the whole system is empty.
|
|
;; The best way to deal with that is to do a full
|
|
;; reparse
|
|
(semantic-parse-changes-failed "Splice-remove failed. Empty buffer?")
|
|
))
|
|
(when semantic-edits-verbose-flag
|
|
(message "To Remove Middle Tag: (%s)"
|
|
(semantic-format-tag-name first))))
|
|
;; Find in the cache the preceding tag
|
|
(while (and cachestart (not (eq first (car (cdr cachestart)))))
|
|
(setq cachestart (cdr cachestart)))
|
|
;; Find the last tag
|
|
(setq cacheend cachestart)
|
|
(while (and cacheend (not (eq last (car cacheend))))
|
|
(setq cacheend (cdr cacheend)))
|
|
;; Splice the end position into the start position.
|
|
;; If there is no start, then this whole section is probably
|
|
;; gone.
|
|
(if cachestart
|
|
(setcdr cachestart (cdr cacheend))
|
|
(semantic-parse-changes-failed "Splice-remove failed."))
|
|
|
|
;; Remove old overlays of these deleted tags
|
|
(while oldtags
|
|
(semantic--tag-unlink-from-buffer (car oldtags))
|
|
(setq oldtags (cdr oldtags)))
|
|
))
|
|
|
|
(defun semantic-edits-splice-insert (newtags parent cachelist)
|
|
"Insert NEWTAGS into PARENT using CACHELIST.
|
|
PARENT could be nil, in which case CACHELIST is the buffer cache
|
|
which must be updated.
|
|
CACHELIST must be searched to find where NEWTAGS are to be inserted.
|
|
The positions of NEWTAGS must be synchronized with those in
|
|
CACHELIST for this to work. Some routines pre-position CACHELIST at a
|
|
convenient location, so use that."
|
|
(let* ((start (semantic-tag-start (car newtags)))
|
|
(newtagendcell (nthcdr (1- (length newtags)) newtags))
|
|
(end (semantic-tag-end (car newtagendcell)))
|
|
)
|
|
(if (> (semantic-tag-start (car cachelist)) start)
|
|
;; We are at the beginning.
|
|
(let* ((pc (if parent
|
|
(semantic-tag-components parent)
|
|
semantic--buffer-cache))
|
|
(nc (cons (car pc) (cdr pc))) ; new cons cell.
|
|
)
|
|
;; Splice the new cache cons cell onto the end of our list.
|
|
(setcdr newtagendcell nc)
|
|
;; Set our list into parent.
|
|
(setcar pc (car newtags))
|
|
(setcdr pc (cdr newtags)))
|
|
;; We are at the end, or in the middle. Find our match first.
|
|
(while (and (cdr cachelist)
|
|
(> end (semantic-tag-start (car (cdr cachelist)))))
|
|
(setq cachelist (cdr cachelist)))
|
|
;; Now splice into the list!
|
|
(setcdr newtagendcell (cdr cachelist))
|
|
(setcdr cachelist newtags))))
|
|
|
|
(defun semantic-edits-splice-replace (oldtag newtag)
|
|
"Replace OLDTAG with NEWTAG in the current cache.
|
|
Do this by recycling OLDTAG's first CONS cell. This effectively
|
|
causes the new tag to completely replace the old one.
|
|
Make sure that all information in the overlay is transferred.
|
|
It is presumed that OLDTAG and NEWTAG are both cooked.
|
|
When this routine returns, OLDTAG is raw, and the data will be
|
|
lost if not transferred into NEWTAG."
|
|
(let* ((oo (semantic-tag-overlay oldtag))
|
|
(o (semantic-tag-overlay newtag))
|
|
(oo-props (semantic-overlay-properties oo)))
|
|
(while oo-props
|
|
(semantic-overlay-put o (car oo-props) (car (cdr oo-props)))
|
|
(setq oo-props (cdr (cdr oo-props)))
|
|
)
|
|
;; Free the old overlay(s)
|
|
(semantic--tag-unlink-from-buffer oldtag)
|
|
;; Recover properties
|
|
(semantic--tag-copy-properties oldtag newtag)
|
|
;; Splice into the main list.
|
|
(setcdr oldtag (cdr newtag))
|
|
(setcar oldtag (car newtag))
|
|
;; This important bit is because the CONS cell representing
|
|
;; OLDTAG is now pointing to NEWTAG, but the NEWTAG
|
|
;; cell is about to be abandoned. Here we update our overlay
|
|
;; to point at the updated state of the world.
|
|
(semantic-overlay-put o 'semantic oldtag)
|
|
))
|
|
|
|
(add-hook 'semantic-before-toplevel-cache-flush-hook
|
|
#'semantic-edits-flush-changes)
|
|
|
|
(provide 'semantic/edit)
|
|
|
|
;; Local variables:
|
|
;; generated-autoload-file: "loaddefs.el"
|
|
;; generated-autoload-load-name: "semantic/edit"
|
|
;; End:
|
|
|
|
;;; semantic/edit.el ends here
|