;; Created: 29 Jul 2015
;; Keywords: lisp
;; Compatibility: GNU Emacs 25
-;; Version: 0.0.3
+;; Version: 0.1.3
;; Package-Requires: ((emacs "25"))
;; ============
;;
;;
-;; The main user entry point is the command `el-search-pattern'. It
+;; The main user entry point is `el-search-pattern'. This command
;; prompts for a `pcase' pattern and searches the current buffer for
-;; expressions that are matched by it when read. Point is put at the
-;; beginning of the expression found (unlike isearch).
+;; matching expressions by iteratively `read'ing buffer contents. For
+;; any match, point is put at the beginning of the expression found
+;; (unlike isearch which puts point at the end of matches).
+;;
+;; Why is it based on `pcase'? Because pattern matching (and the
+;; ability to combine destructuring and condition testing) is well
+;; suited for this task. In addition, pcase allows to add specialized
+;; pattern types and to combine them with other patterns in a natural
+;; and transparent way out of the box.
;;
;; It doesn't matter how the code is actually formatted. Comments are
-;; ignored by the search, and strings are treated as objects, their
-;; contents are not being searched.
+;; ignored, and strings are treated as atomic objects, their contents
+;; are not being searched.
+;;
;;
;; Example 1: if you enter
;;
;; ,(and s (guard (< 70 (length (car (split-string s "\n")))))))
;;
;;
+;; When a search pattern is processed, the searched buffer is current
+;; with point at the beginning of the currently tested expression.
+;;
+;;
;; Convenience
;; ===========
;;
-;; For expression input, the minibuffer prompts here uses
-;; `emacs-lisp-mode'.
+;; For pattern input, the minibuffer is put into `emacs-lisp-mode'.
+;;
+;; Any input PATTERN is silently transformed into (and exp PATTERN)
+;; so that you can always refer to the whole currently tested
+;; expression via the variable `exp'.
+;;
+;;
+;; Example 3:
;;
-;; When reading a search pattern in the minibuffer, the input is
-;; automatically wrapped into `(and exp ,(read input)). So, if you
-;; want to search a buffer for symbols that are defined in "cl-lib",
-;; you can use this pattern
+;; If you want to search a buffer for symbols that are defined in
+;; "cl-lib", you can use this pattern
;;
;; (guard (and (symbolp exp)
;; (when-let ((file (symbol-file exp)))
;; (string-match-p "cl-lib\\.elc?$" file))))
;;
-;; without binding the variable `exp'.
+;;
+;; ,----------------------------------------------------------------------
+;; | Q: "But I hate `pcase'! Can't we just do without?" |
+;; | |
+;; | A: Respect that you kept up until here! Just use (guard CODE), where|
+;; | CODE is any normal Elisp expression that returns non-nil when and |
+;; | only when you have a match. Use the variable `exp' to refer to |
+;; | the currently tested expression. Just like in the last example! |
+;; `----------------------------------------------------------------------
+;;
+;;
+;; It's cumbersome to write out the same complicated pattern
+;; constructs in the minibuffer again and again. You can define your
+;; own pcase pattern types for the purpose of el-search with
+;; `el-search-defpattern'. It is just like `pcase-defmacro', but the
+;; effect is limited to this package. See C-h f `el-search-pattern'
+;; for a list of predefined additional pattern forms.
;;
;;
;; Replacing
;; y and n work like in isearch (meaning "yes" and "no") if you are
;; used to that.
;;
+;; It is possible to replace a match with multiple expressions using
+;; "splicing mode". When it is active, the replacement expression
+;; must evaluate to a list, and is spliced instead of inserted into
+;; the buffer for any replaced match. Use s to toggle splicing mode
+;; in a `el-search-query-replace' session.
+;;
;;
;; Suggested key bindings
;; ======================
;;
;; TODO:
;;
-;; - display something useful in the echo area. or leave it for being
-;; able to `message' in the pattern?
+;; - When replacing like (progn A B C) -> A B C, the layout of the
+;; whole "group" A B C as a unit is lost. Instead of restoring layout
+;; as we do now (via "read mappings"), we could just make a backup of
+;; the original expression as a string, and use our search machinery
+;; to find occurrences in the replacement recursively.
+;;
+;; - detect infloops when replacing automatically (e.g. for 1 -> '(1))
;;
;; - implement backward searching
;;
;; - improve docstrings
;;
-;; - add more examples
-;;
;; - handle more reader syntaxes, e.g. #n, #n#
;;
;; - Implement sessions; add multi-file support based on iterators. A
-;; file list is read in (or the user can specify an iterator as a
-;; variable). The state in the current buffer is just (buffer
-;; . marker). Or should this be abstracted into an own lib? Could be
-;; named "files-session" or so.
+;; file list is read in (or the user can specify an iterator as a
+;; variable). The state in the current buffer is just (buffer
+;; . marker). Or should this be abstracted into an own lib? Could
+;; be named "files-session" or so.
(require 'cl-lib)
(require 'elisp-mode)
(require 'thingatpt)
+(require 'help-fns) ;el-search--make-docstring
;;;; Configuration stuff
:group 'lisp)
(defcustom el-search-this-expression-identifier 'exp
- "Name of the identifier referring to the current expression.
-The default value is `exp'. You can use this name in the search
-prompt to refer to the value of the currently tested expression."
+ "Identifier referring to the current expression in pattern input.
+When entering a PATTERN in an interactive \"el-search\" command,
+the pattern actually used will be
+
+ `(and ,el-search-this-expression-identifier ,pattern)
+
+The default value is `exp'."
:type 'symbol)
(defface el-search-match '((((background dark)) (:background "#0000A0"))
- (t (:background "DarkSlateGray1")))
+ (t (:background "DarkSlateGray3")))
"Face for highlighting the current match.")
+(defface el-search-other-match '((((background dark)) (:background "#202060"))
+ (t (:background "DarkSlateGray1")))
+ "Face for highlighting the other matches.")
+
+(defcustom el-search-smart-case-fold-search t
+ "Whether to use smart case folding in pattern matching.
+When an \"el-search\" pattern involves regexp matching (like for
+\"string\" or \"source\") and this option is non-nil,
+case-fold-search will be temporarily bound to t if the according
+regexp contains any upper case letter, and nil else. This is
+done independently for every single matching operation.
+
+If nil, the value of `case-fold-search' is decisive."
+ :type 'boolean)
+
+(defcustom el-search-use-sloppy-strings nil
+ "Whether to allow the usage of \"sloppy strings\".
+When this option is turned on, for faster typing you are allowed
+to specify symbols instead of strings as arguments to an
+\"el-search\" pattern type that would otherwise accept only
+strings, and their names will be used as input (with other words,
+this spares you to type the string delimiters in many cases).
+
+For example,
+
+ \(source ^cl\)
+
+is then equivalent to
+
+ \(source \"^cl\"\)
+
+When this option is off, the first form would just signal an
+error."
+ :type 'boolean)
+
;;;; Helpers
+(defun el-search--smart-string-match-p (regexp string)
+ "`string-match-p' taking `el-search-smart-case-fold-search' into account."
+ (let ((case-fold-search (if el-search-smart-case-fold-search
+ (not (let ((case-fold-search nil))
+ (string-match-p "[[:upper:]]" regexp)))
+ case-fold-search)))
+ (string-match-p regexp string)))
+
(defun el-search--print (expr)
(let ((print-quoted t)
(print-length nil)
map)
"Map for reading input with `el-search-read-expression'.")
+(defun el-search--setup-minibuffer ()
+ (emacs-lisp-mode)
+ (use-local-map el-search-read-expression-map)
+ (setq font-lock-mode t)
+ (funcall font-lock-function 1)
+ (backward-sexp)
+ (indent-sexp)
+ (goto-char (point-max))
+ (when-let ((this-sexp (with-current-buffer (window-buffer (minibuffer-selected-window))
+ (thing-at-point 'sexp))))
+ (let ((more-defaults (list (concat "'" this-sexp))))
+ (setq-local minibuffer-default-add-function
+ (lambda () (if (listp minibuffer-default)
+ (append minibuffer-default more-defaults)
+ (cons minibuffer-default more-defaults)))))))
+
;; $$$$$FIXME: this should be in Emacs! There is only a helper `read--expression'.
(defun el-search-read-expression (prompt &optional initial-contents hist default read)
"Read expression for `my-eval-expression'."
- (minibuffer-with-setup-hook
- (lambda ()
- (emacs-lisp-mode)
- (use-local-map el-search-read-expression-map)
- (setq font-lock-mode t)
- (funcall font-lock-function 1)
- (backward-sexp)
- (indent-sexp)
- (goto-char (point-max)))
+ (minibuffer-with-setup-hook #'el-search--setup-minibuffer
(read-from-minibuffer prompt initial-contents el-search-read-expression-map read
(or hist 'read-expression-history) default)))
+(defvar el-search--initial-mb-contents nil)
+
(defun el-search--read-pattern (prompt &optional default read)
- (el-search-read-expression
- prompt el-search--initial-mb-contents 'el-search-history
- (or default (when-let ((this-sexp (sexp-at-point)))
- (concat "'" (el-search--print this-sexp))))
- read))
+ (let ((input (el-search-read-expression
+ prompt el-search--initial-mb-contents 'el-search-history default read)))
+ (if (or read (not (string= input ""))) input (car el-search-history))))
(defun el-search--end-of-sexp ()
;;Point must be at sexp beginning
(or (scan-sexps (point) 1) (point-max)))
(defun el-search--ensure-sexp-start ()
- "Move point to the beginning of the next sexp if necessary.
-Don't move if already at beginning of a sexp.
-Point must not be inside a string or comment."
+ "Move point to the next sexp beginning position.
+Don't move if already at beginning of a sexp. Point must not be
+inside a string or comment. `read' the expression at that point
+and return it."
(let ((not-done t) res)
(while not-done
(let ((stop-here nil)
(error (forward-char))))
res))
+(defvar el-search--pcase-macros '()
+ "List of additional \"el-search\" pcase macros.")
+
+(defun el-search--make-docstring ()
+ ;; code mainly from `pcase--make-docstring'
+ (let* ((main (documentation (symbol-function 'el-search-pattern) 'raw))
+ (ud (help-split-fundoc main 'pcase)))
+ (with-temp-buffer
+ (insert (or (cdr ud) main))
+ (mapc
+ (pcase-lambda (`(,symbol . ,fun))
+ (when-let ((doc (documentation fun)))
+ (insert "\n\n\n-- ")
+ (setq doc (help-fns--signature symbol doc fun fun nil))
+ (insert "\n" (or doc "Not documented."))))
+ (reverse el-search--pcase-macros))
+ (let ((combined-doc (buffer-string)))
+ (if ud (help-add-fundoc-usage combined-doc (car ud)) combined-doc)))))
+
+(put 'el-search-pattern 'function-documentation '(el-search--make-docstring))
+
+(defmacro el-search-defpattern (name args &rest body)
+ "Like `pcase-defmacro', but limited to el-search patterns.
+The semantics is exactly that of `pcase-defmacro', but the scope
+of the definitions is limited to \"el-search\"."
+ (declare (indent 2) (debug defun))
+ `(setf (alist-get ',name el-search--pcase-macros)
+ (lambda ,args ,@body)))
+
+(defun el-search--macroexpand-1 (pattern)
+ "Expand \"el-search\" PATTERN.
+This is like `pcase--macroexpand', but expands only patterns
+defined with `el-search-defpattern' and performs only one
+expansion step.
+
+Return PATTERN if this pattern type was not defined with
+`el-search-defpattern'."
+ (if-let ((expander (alist-get (car-safe pattern) el-search--pcase-macros)))
+ (apply expander (cdr pattern))
+ pattern))
+
+(defmacro el-search--with-additional-pcase-macros (&rest body)
+ `(cl-letf ,(mapcar (pcase-lambda (`(,symbol . ,fun))
+ `((get ',symbol 'pcase-macroexpander) #',fun))
+ el-search--pcase-macros)
+ ,@body))
+
(defun el-search--matcher (pattern &rest body)
- (let ((warning-suppress-log-types '((bytecomp))))
- (byte-compile
- `(lambda (expression)
- (pcase expression
- (,pattern ,@(or body (list t)))
- (_ nil))))))
+ (eval ;use `eval' to allow for user defined pattern types at run time
+ (let ((expression (make-symbol "expression")))
+ `(el-search--with-additional-pcase-macros
+ (let ((byte-compile-debug t) ;make undefined pattern types raise an error
+ (warning-suppress-log-types '((bytecomp)))
+ (pcase--dontwarn-upats (cons '_ pcase--dontwarn-upats)))
+ (byte-compile (lambda (,expression)
+ (pcase ,expression
+ (,pattern ,@(or body (list t)))
+ (_ nil)))))))))
(defun el-search--match-p (matcher expression)
(funcall matcher expression))
(goto-char (match-end 0)))
(t (forward-char))))
-(defun el-search--search-pattern (pattern &optional noerror)
- "Search elisp buffer with `pcase' PATTERN.
-Set point to the beginning of the occurrence found and return
-point. Optional second argument, if non-nil, means if fail just
-return nil (no error)."
-
- (let ((matcher (el-search--matcher pattern)) (match-beg nil) (opoint (point)) current-expr)
+(defun el-search--search-pattern-1 (matcher &optional noerror)
+ (let ((match-beg nil) (opoint (point)) current-expr)
;; when inside a string or comment, move past it
(let ((syntax-here (syntax-ppss)))
(if noerror nil (signal 'end-of-buffer nil)))
match-beg))
+(defun el-search--search-pattern (pattern &optional noerror)
+ "Search elisp buffer with `pcase' PATTERN.
+Set point to the beginning of the occurrence found and return
+point. Optional second argument, if non-nil, means if fail just
+return nil (no error)."
+ (el-search--search-pattern-1 (el-search--matcher pattern) noerror))
+
(defun el-search--do-subsexps (pos do-fun &optional ret-fun bound)
;; In current buffer, for any expression start between POS and BOUND
- ;; or (point-max), in oder, call two argument function DO-FUN with
+ ;; or (point-max), in order, call two argument function DO-FUN with
;; the current sexp string and the ending position of the current
;; sexp. When done, with RET-FUN given, call it with no args and
;; return the result; else, return nil.
(save-excursion (insert old))))
(lambda () (buffer-substring (point-min) (point-max))))))
+(defun el-search--check-pattern-args (type args predicate &optional message)
+ "Check whether all ARGS fulfill PREDICATE.
+Raise an error if not. TYPE and optional argument MESSAGE are
+used to construct the error message."
+ (mapc (lambda (arg)
+ (unless (funcall predicate arg)
+ (error (concat "Pattern `%S': "
+ (or message (format "argument doesn't fulfill %S" predicate))
+ ": %S")
+ type arg)))
+ args))
+
+
+;;;; Additional pattern type definitions
+
+(defun el-search--split (matcher1 matcher2 list)
+ "Helper for the append pattern type.
+
+When a splitting of LIST into two lists L1, L2 exist so that Li
+is matched by MATCHERi, return (L1 L2) for such Li, else return
+nil."
+ (let ((try-match (lambda (list1 list2)
+ (when (and (el-search--match-p matcher1 list1)
+ (el-search--match-p matcher2 list2))
+ (list list1 list2))))
+ (list1 list) (list2 '()) (match nil))
+ ;; don't use recursion, this could hit `max-lisp-eval-depth'
+ (while (and (not (setq match (funcall try-match list1 list2)))
+ (consp list1))
+ (let ((last-list1 (last list1)))
+ (if-let ((cdr-last-list1 (cdr last-list1)))
+ ;; list1 is a dotted list. Then list2 must be empty.
+ (progn (setcdr last-list1 nil)
+ (setq list2 cdr-last-list1))
+ (setq list1 (butlast list1 1)
+ list2 (cons (car last-list1) list2)))))
+ match))
+
+(el-search-defpattern append (&rest patterns)
+ "Matches any list factorable into lists matched by PATTERNS in order.
+
+PATTERNS is a list of patterns P1..Pn. Match any list L for that
+lists L1..Ln exist that are matched by P1..Pn in order and L is
+equal to the concatenation of L1..Ln. Ln is allowed to be no
+list.
+
+When different ways of matching are possible, it is unspecified
+which one is chosen.
+
+Example: the pattern
+
+ (append '(1 2 3) x (app car-safe 7))
+
+matches the list (1 2 3 4 5 6 7 8 9) and binds `x' to (4 5 6)."
+ (if (null patterns)
+ '(pred null)
+ (pcase-let ((`(,pattern . ,more-patterns) patterns))
+ (cond
+ ((null more-patterns) pattern)
+ ((null (cdr more-patterns))
+ `(and (pred listp)
+ (app ,(apply-partially #'el-search--split
+ (el-search--matcher pattern)
+ (el-search--matcher (car more-patterns)))
+ (,'\` ((,'\, ,pattern)
+ (,'\, ,(car more-patterns)))))))
+ (t `(append ,pattern (append ,@more-patterns)))))))
+
+(defun el-search--stringish-p (thing)
+ (or (stringp thing) (and el-search-use-sloppy-strings (symbolp thing))))
+
+(el-search-defpattern string (&rest regexps)
+ "Matches any string that is matched by all REGEXPS."
+ (el-search--check-pattern-args 'string regexps #'el-search--stringish-p
+ "Argument not a string")
+ `(and (pred stringp)
+ ,@(mapcar (lambda (thing) `(pred (el-search--smart-string-match-p
+ ,(if (symbolp thing) (symbol-name thing) thing))))
+ regexps)))
+
+(el-search-defpattern symbol (&rest regexps)
+ "Matches any symbol whose name is matched by all REGEXPS."
+ (el-search--check-pattern-args 'symbol regexps #'el-search--stringish-p
+ "Argument not a string")
+ `(and (pred symbolp)
+ (app symbol-name (string ,@regexps))))
+
+(defun el-search--contains-p (matcher exp)
+ "Return non-nil when tree EXP contains a match for MATCHER.
+Recurse on all types of sequences. In the positive case the
+return value is (t elt), where ELT is a matching element found in
+EXP."
+ (if (el-search--match-p matcher exp)
+ (list t exp)
+ (and (sequencep exp)
+ (let ((try-match (apply-partially #'el-search--contains-p matcher)))
+ (if (consp exp)
+ (or (funcall try-match (car exp))
+ (funcall try-match (cdr exp)))
+ (cl-some try-match exp))))))
+
+(el-search-defpattern contains (&rest patterns)
+ "Matches trees that contain a match for all PATTERNs.
+Searches any tree of sequences recursively for matches. Objects
+of any kind matched by all PATTERNs are also matched.
+
+ Example: (contains (string \"H\") 17) matches ((\"Hallo\") x (5 [1 17]))"
+ (cond
+ ((null patterns) '_)
+ ((null (cdr patterns))
+ (let ((pattern (car patterns)))
+ `(app ,(apply-partially #'el-search--contains-p (el-search--matcher pattern))
+ (,'\` (t (,'\, ,pattern))))))
+ (t `(and ,@(mapcar (lambda (pattern) `(contains ,pattern)) patterns)))))
+
+(el-search-defpattern not (pattern)
+ "Matches any object that is not matched by PATTERN."
+ `(app ,(apply-partially #'el-search--match-p (el-search--matcher pattern))
+ (pred not)))
+
+(defun el-search--match-symbol-file (regexp symbol)
+ (when-let ((symbol-file (and (symbolp symbol)
+ (symbol-file symbol))))
+ (el-search--smart-string-match-p
+ (if (symbolp regexp) (concat "\\`" (symbol-name regexp) "\\'") regexp)
+ (file-name-sans-extension (file-name-nondirectory symbol-file)))))
+
+(el-search-defpattern source (regexp)
+ "Matches any symbol whose `symbol-file' is matched by REGEXP.
+
+This pattern matches when the object is a symbol for that
+`symbol-file' returns a (non-nil) FILE-NAME that fulfills
+ (string-match-p REGEXP (file-name-sans-extension
+ (file-name-nondirectory FILENAME)))
+
+REGEXP can also be a symbol, in which case
+
+ (concat \"^\" (symbol-name regexp) \"$\")
+
+is used as regular expression."
+ (el-search--check-pattern-args 'source (list regexp) #'el-search--stringish-p
+ "Argument not a string")
+ `(pred (el-search--match-symbol-file ,(if (symbolp regexp) (symbol-name regexp) regexp))))
+
+(defun el-search--match-key-sequence (keys expr)
+ (when-let ((expr-keys (pcase expr
+ ((or (pred stringp) (pred vectorp)) expr)
+ (`(kbd ,(and (pred stringp) string)) (ignore-errors (kbd string))))))
+ (apply #'equal
+ (mapcar (lambda (keys) (ignore-errors (key-description keys)))
+ (list keys expr-keys)))))
+
+(el-search-defpattern keys (key-sequence)
+ "Matches descriptions of the KEY-SEQUENCE.
+KEY-SEQUENCE is a string or vector representing a key sequence,
+or an expression of the form (kbd STRING).
+
+Match any description of the same key sequence in any of these
+formats.
+
+Example: the pattern
+
+ (keys (kbd \"C-s\"))
+
+matches any of these expressions:
+
+ \"\\C-s\"
+ \"\C-s\"
+ (kbd \"C-s\")
+ [(control ?s)]"
+ (when (eq (car-safe key-sequence) 'kbd)
+ (setq key-sequence (kbd (cadr key-sequence))))
+ (el-search--check-pattern-args 'keys (list key-sequence) (lambda (x) (or (stringp x) (vectorp x)))
+ "argument not a string or vector")
+ `(pred (el-search--match-key-sequence ,key-sequence)))
+
+(defun el-search--s (expr)
+ (cond
+ ((symbolp expr) `(or (symbol ,(symbol-name expr))
+ (,'\` (,'quote (,'\, (symbol ,(symbol-name expr)))))
+ (,'\` (,'function (,'\, (symbol ,(symbol-name expr)))))))
+ ((stringp expr) `(string ,expr))
+ (t expr)))
+
+(el-search-defpattern l (&rest lpats)
+ "Alternative pattern type for matching lists.
+Match any list with subsequent elements matched by all LPATS in
+order.
+
+The idea is to be able to search for pieces of code (i.e. lists)
+with very brief input by using a specialized syntax.
+
+An LPAT can take the following forms:
+
+SYMBOL Matches any symbol S matched by SYMBOL's name interpreted
+ as a regexp. Matches also 'S and #'S for any such S.
+STRING Matches any string matched by STRING interpreted as a
+ regexp
+_ Matches any list element
+__ Matches any number of list elements (including zero)
+^ Matches zero elements, but only at the beginning of a list
+$ Matches zero elements, but only at the end of a list
+PAT Anything else is interpreted as a normal pcase pattern, and
+ matches one list element matched by it
+
+^ is only valid as the first, $ as the last of the LPATS.
+
+Example: To match defuns that contain \"hl\" in their name and
+have at least one mandatory, but also optional arguments, you
+could use this pattern:
+
+ (l ^ 'defun hl (l _ &optional))"
+ (let ((match-start nil) (match-end nil))
+ (when (eq (car-safe lpats) '^)
+ (setq match-start t)
+ (cl-callf cdr lpats))
+ (when (eq (car-safe (last lpats)) '$)
+ (setq match-end t)
+ (cl-callf butlast lpats 1))
+ `(append ,@(if match-start '() '(_))
+ ,@(mapcar
+ (lambda (elt)
+ (pcase elt
+ ('__ '_)
+ ('_ '`(,_))
+ ('_? '(or '() `(,_))) ;FIXME: useful - document? or should we provide a (? PAT)
+ ;thing?
+ (_ `(,'\` ((,'\, ,(el-search--s elt)))))))
+ lpats)
+ ,@(if match-end '() '(_)))))
+
;;;; Highlighting
(defvar-local el-search-hl-overlay nil)
+(defvar-local el-search-hl-other-overlays '())
+
(defvar el-search-keep-hl nil)
-(defun el-search-hl-sexp-at-point ()
- (let ((bounds (list (point) (el-search--end-of-sexp))))
+(defun el-search-hl-sexp (&optional bounds)
+ (let ((bounds (or bounds
+ (list (point) (el-search--end-of-sexp)))))
(if (overlayp el-search-hl-overlay)
(apply #'move-overlay el-search-hl-overlay bounds)
(overlay-put (setq el-search-hl-overlay (apply #'make-overlay bounds))
- 'face 'el-search-match)))
- (add-hook 'post-command-hook (el-search-hl-post-command-fun (current-buffer)) t t))
+ 'face 'el-search-match))
+ (overlay-put el-search-hl-overlay 'priority 1002))
+ (add-hook 'post-command-hook #'el-search-hl-post-command-fun t t))
+
+(defun el-search--hl-other-matches-1 (pattern from to)
+ (mapc #'delete-overlay el-search-hl-other-overlays)
+ (setq el-search-hl-other-overlays '())
+ (let ((matcher (el-search--matcher pattern))
+ this-match-beg this-match-end
+ (done nil))
+ (save-excursion
+ (goto-char from)
+ (while (not done)
+ (setq this-match-beg (el-search--search-pattern-1 matcher t))
+ (if (not this-match-beg)
+ (setq done t)
+ (goto-char this-match-beg)
+ (setq this-match-end (el-search--end-of-sexp))
+ (let ((ov (make-overlay this-match-beg this-match-end)))
+ (overlay-put ov 'face 'el-search-other-match)
+ (overlay-put ov 'priority 1001)
+ (push ov el-search-hl-other-overlays)
+ (goto-char this-match-end)
+ (when (>= (point) to) (setq done t))))))))
+
+(defun el-search-hl-other-matches (pattern)
+ "Highlight all matches visible in the selected window."
+ (el-search--hl-other-matches-1 pattern
+ (save-excursion
+ (goto-char (window-start))
+ (beginning-of-defun-raw)
+ (point))
+ (window-end))
+ (add-hook 'window-scroll-functions #'el-search--after-scroll t t))
+
+(defun el-search--after-scroll (_win start)
+ (el-search--hl-other-matches-1 el-search-current-pattern
+ (save-excursion
+ (goto-char start)
+ (beginning-of-defun-raw)
+ (point))
+ (window-end nil t)))
(defun el-search-hl-remove ()
(when (overlayp el-search-hl-overlay)
- (delete-overlay el-search-hl-overlay)))
+ (delete-overlay el-search-hl-overlay))
+ (remove-hook 'window-scroll-functions #'el-search--after-scroll t)
+ (mapc #'delete-overlay el-search-hl-other-overlays)
+ (setq el-search-hl-other-overlays '()))
-(defun el-search-hl-post-command-fun (buf)
- (letrec ((fun (lambda ()
- (when (buffer-live-p buf)
- (unless (or el-search-keep-hl
- (eq this-command 'el-search-query-replace)
- (eq this-command 'el-search-pattern))
- (with-current-buffer buf
- (el-search-hl-remove)
- (remove-hook 'post-command-hook fun t)))))))
- fun))
+(defun el-search-hl-post-command-fun ()
+ (unless (or el-search-keep-hl
+ (eq this-command 'el-search-query-replace)
+ (eq this-command 'el-search-pattern))
+ (el-search-hl-remove)
+ (remove-hook 'post-command-hook 'el-search-hl-post-command-fun t)))
;;;; Core functions
;;;###autoload
(defun el-search-pattern (pattern)
- "Do incremental elisp search or resume last search."
- (interactive (list (if (eq this-command last-command)
+ "Start new or resume last elisp search.
+
+Search current buffer for expressions that are matched by `pcase'
+PATTERN. Use `read' to transform buffer contents into
+expressions.
+
+
+Additional `pcase' pattern types to be used with this command can
+be defined with `el-search-defpattern'.
+
+The following additional pattern types are currently defined:"
+ (interactive (list (if (and (eq this-command last-command)
+ el-search-success)
el-search-current-pattern
(let ((pattern
(el-search--read-pattern "Find pcase pattern: "
(not (eq (symbol-value pattern) pattern))))
(error "Please don't forget the quote when searching for a symbol"))
(el-search--wrap-pattern pattern)))))
- (setq this-command 'el-search-pattern) ;in case we come from isearch
- (setq el-search-current-pattern pattern)
- (let ((opoint (point)))
- (when (eq this-command last-command)
- (if el-search-success
- (el-search--skip-expression nil t)
- ;; wrap search
- (goto-char (point-min))))
- (setq el-search-success nil)
- (when (condition-case nil
- (el-search--search-pattern pattern)
- (end-of-buffer (message "No match")
- (goto-char opoint)
- (el-search-hl-remove)
- (ding)
- nil))
- (setq el-search-success t)
- (el-search-hl-sexp-at-point))))
-
-(defun el-search-search-and-replace-pattern (pattern replacement &optional mapping)
+ (if (not (called-interactively-p 'any))
+ (el-search--search-pattern pattern)
+ (setq this-command 'el-search-pattern) ;in case we come from isearch
+ (setq el-search-current-pattern pattern)
+ (let ((opoint (point)))
+ (when (and (eq this-command last-command) el-search-success)
+ (el-search--skip-expression nil t))
+ (setq el-search-success nil)
+ (when (condition-case nil
+ (el-search--search-pattern pattern)
+ (end-of-buffer (message "No match")
+ (goto-char opoint)
+ (el-search-hl-remove)
+ (ding)
+ nil))
+ (setq el-search-success t)
+ (el-search-hl-sexp)
+ (unless (eq this-command last-command)
+ (el-search-hl-other-matches pattern))))))
+
+(defvar el-search-search-and-replace-help-string
+ "\
+y Replace this match and move to the next.
+SPC or n Skip this match and move to the next.
+r Replace this match but don't move.
+! Replace all remaining matches automatically.
+q Quit. To resume, use e.g. `repeat-complex-command'.
+? Show this help.
+s Toggle splicing mode. When splicing mode is
+ on (default off), the replacement expression must
+ evaluate to a list, and the result is spliced into the
+ buffer, instead of just inserted.
+
+Hit any key to proceed."
+ "Help string for ? in `el-search-query-replace'.")
+
+(defun el-search-search-and-replace-pattern (pattern replacement &optional mapping splice)
(let ((replace-all nil) (nbr-replaced 0) (nbr-skipped 0) (done nil)
(el-search-keep-hl t) (opoint (point))
(get-replacement (el-search--matcher pattern replacement)))
(unwind-protect
(while (and (not done) (el-search--search-pattern pattern t))
(setq opoint (point))
- (unless replace-all (el-search-hl-sexp-at-point))
+ (unless replace-all
+ (el-search-hl-sexp)
+ (unless (eq this-command last-command)
+ (el-search-hl-other-matches pattern)))
(let* ((read-mapping (el-search--create-read-map))
(region (list (point) (el-search--end-of-sexp)))
(substring (apply #'buffer-substring-no-properties region))
(expr (read substring))
(replaced-this nil)
(new-expr (funcall get-replacement expr))
- (to-insert (el-search--repair-replacement-layout
- (el-search--print new-expr) (append mapping read-mapping)))
+ (get-replacement-string
+ (lambda () (if (and splice (not (listp new-expr)))
+ (error "Expression to splice in is an atom")
+ (el-search--repair-replacement-layout
+ (if splice
+ (mapconcat #'el-search--print new-expr " ")
+ (el-search--print new-expr))
+ (append mapping read-mapping)))))
+ (to-insert (funcall get-replacement-string))
(do-replace (lambda ()
(atomic-change-group
(apply #'delete-region region)
(opoint (point)))
(insert to-insert)
(indent-region opoint (point))
- (goto-char opoint)
- (el-search-hl-sexp-at-point)))
+ (el-search-hl-sexp (list opoint (point)))
+ (goto-char opoint)))
(cl-incf nbr-replaced)
(setq replaced-this t))))
(if replace-all
(funcall do-replace)
(while (not (pcase (if replaced-this
- (read-char-choice "[SPC ! q]" '(?\ ?! ?q ?n))
+ (read-char-choice "[SPC ! q] (? for help)"
+ '(?\ ?! ?q ?n ??))
(read-char-choice
- (concat "Replace this occurence"
+ (concat "Replace this occurrence"
(if (or (string-match-p "\n" to-insert)
(< 40 (length to-insert)))
"" (format " with `%s'" to-insert))
- "? [y SPC r ! q]" )
- '(?y ?n ?r ?\ ?! ?q)))
+ "? "
+ (if splice "{splice} " "")
+ "[y SPC r ! s q] (? for help)" )
+ '(?y ?n ?r ?\ ?! ?q ?s ??)))
(?r (funcall do-replace)
nil)
(?y (funcall do-replace)
(funcall do-replace))
(setq replace-all t)
t)
+ (?s (cl-callf not splice)
+ (setq to-insert (funcall get-replacement-string))
+ nil)
(?q (setq done t)
- t)))))
+ t)
+ (?? (ignore (read-char el-search-search-and-replace-help-string))
+ nil)))))
(unless (or done (eobp)) (el-search--skip-expression nil t)))))
(el-search-hl-remove)
(goto-char opoint)
(if (zerop nbr-skipped) ""
(format " (%d skipped)" nbr-skipped)))))
-;; We need a variable for the initial contents because we want to `call-interactively'
-;; `el-search-query-replace-read-args'
-(defvar el-search--initial-mb-contents nil)
-
(defun el-search-query-replace-read-args ()
(barf-if-buffer-read-only)
(let* ((from (el-search--read-pattern "Replace from: "))
(barf-if-buffer-read-only)
(el-search-search-and-replace-pattern from to mapping))
-(defun el-search--take-over-from-isearch ()
- (let ((other-end isearch-other-end)
+(defun el-search--take-over-from-isearch (&optional goto-left-end)
+ (let ((other-end (and goto-left-end isearch-other-end))
(input isearch-string))
(isearch-exit)
(when (and other-end (< other-end (point)))
;;;###autoload
(defun el-search-replace-from-isearch ()
(interactive)
- (let ((el-search--initial-mb-contents (concat "'" (el-search--take-over-from-isearch))))
+ (let ((el-search--initial-mb-contents (concat "'" (el-search--take-over-from-isearch t))))
(call-interactively #'el-search-query-replace)))