branch: master
commit 4d339f789d6e3ce76f12c9354744d11edec44f33
Author: Stephen Leake <stephen_le...@stephe-leake.org>
Commit: Stephen Leake <stephen_le...@stephe-leake.org>

    Add package uniquify-files
---
 packages/uniquify-files/uniquify-files.el | 711 ++++++++++++++++++++++++++++++
 1 file changed, 711 insertions(+)

diff --git a/packages/uniquify-files/uniquify-files.el 
b/packages/uniquify-files/uniquify-files.el
new file mode 100644
index 0000000..ee2ef25
--- /dev/null
+++ b/packages/uniquify-files/uniquify-files.el
@@ -0,0 +1,711 @@
+;; uniquify-files.el --- Completion style for files in a path  -*- 
lexical-binding:t -*-
+;;
+;; Copyright (C) 2017, 2019  Free Software Foundation, Inc.
+;;
+;; Author: Stephen Leake <stephen_le...@stephe-leake.org>
+;; Maintainer: Stephen Leake <stephen_le...@stephe-leake.org>
+;; Keywords: completion table
+;;   uniquify
+;; Version: 0
+;; package-requires: ((emacs "25.0"))
+;;
+;; This file is part of GNU Emacs.
+;;
+;; GNU Emacs is free software: you can redistribute it and/or modify
+;; it under the terms of the GNU General Public License as published by
+;; the Free Software Foundation, either version 3 of the License, or
+;; (at your option) any later version.
+;;
+;; GNU Emacs is distributed in the hope that it will be useful,
+;; but WITHOUT ANY WARRANTY; without even the implied warranty of
+;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+;; GNU General Public License for more details.
+;;
+;; You should have received a copy of the GNU General Public License
+;; along with GNU Emacs.  If not, see <http://www.gnu.org/licenses/>.
+
+
+;;; Discussion
+;;;
+;; These are the driving requirements for this completion style:
+;;
+;; - Allow the strings entered by the user and displayed in the
+;;   completion list to be rearranged abbreviations of the absolute
+;;   file name returned by `completing-read'.
+;;
+;; - Allow partial completion on the directory and filename portions
+;;   of the abbreviated strings.
+;;
+;;   "partial completion" means file names are partitioned at "_-/"
+;;   characters, so "fo-ba" completes to "foo-bar".
+;;
+;; - There should be no style-dependent code in the completion table
+;;   function; all code that deals with converting between the
+;;   abbreviated strings and the absolute strings should be in
+;;   higher-level functions, under the control of
+;;   `completion-styles-alist'.
+
+;; The first requirement has the most effect on the design. There are
+;; two common ways to select the result of a completion:
+;;
+;; - `minibuffer-complete-and-exit' - by default bound to <ret> in the
+;;   minibuffer when `icomplete-mode' is enabled.
+;;
+;; - `minibuffer-force-complete-and-exit' - some users bind this to
+;;    <ret> or other keys, so that it is easier to select the first
+;;    completion.
+;;
+;; One possible design is to have `completion-try-completion' return
+;; an absolute file name (rather than an abbreviated file name) when
+;; the completed string is a valid completion. That sometimes works
+;; with `minibuffer-complete-and-exit', but it does not work with
+;; `minibuffer-force-complete-and-exit'; details follow.
+
+;; The nominal path thru `minibuffer-complete-and-exit' in effect
+;; calls `test-completion'. If that returns nil, it calls
+;; `completion-try-completion' with the same string, and then
+;; `test-completion' on that result. If that returns non-nil, the
+;; completed string is returned as the result of
+;; `completing-read'. Thus `test-completion' could return nil for user
+;; format strings, and t for data format strings; and `try-completion'
+;; could convert user format strings that are valid completions to data
+;; format strings. However, the full logic is complex (see the code in
+;; minibuffer.el for more details), and often ends up not converting
+;; the user string to a data string.
+;;
+;; `minibuffer-force-complete-and-exit' calls
+;; `minibuffer-force-complete', which replaces the buffer text with
+;; the first completion. Then it calls `test-completion', but _not_
+;; `try-completion' if that fails. So there is no opportunity to
+;; convert the user string to a data string.
+;;
+;; Thus the design we use here adds an explicit conversion from user
+;; to data format, via advice on completing-read.
+;;
+;; We did not meet the third requirement; the completion table
+;; implements part of the completion style.
+
+;;; Design
+;;
+;; There are three string formats involved in completion. For most
+;; styles, they are all the same; the following table describes them
+;; for the uniquify-file style.
+;;
+;; - user
+;;
+;;   The format typed by the user in the minibuffer, and shown in the
+;;   displayed completion list.
+;;
+;;   The user input is passed to `completion-try-completion', so it must
+;;   accept this format.
+;;
+;;   The string returned by `completion-try-completion' when it extends
+;;   the string replaces the string typed by the user, so it must be
+;;   in this format.
+;;
+;;   The displayed completion list consists of the strings returned by
+;;   `completion-all-completions' with the common prefix deleted;
+;;   `completion-all-completions' must return strings in this format.
+;;
+;;   When the user selects a displayed completion, the string is
+;;   passed to `test-completion'; it must accept strings in this format
+;;   and return t.
+;;
+;;   For the uniquify-file style, this is a partial or complete file
+;;   name plus any required uniquifying directories, formatted
+;;   according to `uniquify-files-style'.
+;;
+;; - completion table input
+;;
+;;   The string input to the completion table function.
+;;
+;;   The `completion-try-completion' and `completion-all-completion'
+;;   `test-completion' functions must convert user format strings to
+;;   completion table input format strings when calling the
+;;   corresponding low-level completion functions that call the
+;;   completion table function.
+;;
+;;   For the uniquify-file style, this contains the complete or
+;;   partial directory name or no directory name, followed by the
+;;   partial or complete file name, in normal elisp filename format.
+;;
+;;   A completion table input string is a valid completion if the
+;;   string equals (respecting `completion-ignore-case') the tail of
+;;   an existing file name, starting after a directory separator and
+;;   ending at the end of the file name.
+;;
+;; - data
+;;
+;;   The string format desired as the result of `completing-read'.
+;;
+;;   In order to keep style-dependent code out of the completion table
+;;   function, the completion table function returns a list of strings
+;;   in this format when action is t; `completion-all-completions'
+;;   converts them to user format strings.
+;;
+;;   For the uniquify-file style, this is an absolute file name.
+;;
+;;
+;; As of Emacs 25.1, `completion-try-completion' and
+;; `completion-all-completion' support style-specific implementations
+;; via `completion-style-alist', but `test-completion' does not. So we
+;; advise `test-completion' to call `try-completion' first.
+;;
+;; Similarly, the current completion code does not have a provision
+;; for converting from user format to data format after a completion
+;; is selected; we add that via advice on `completing-read-default'. A
+;; future version may add this conversion in
+;; `completion--complete-and-exit' instead.
+
+(require 'cl-lib)
+(require 'path-iterator)
+
+(defvar uniquify-files-style 'abbrev
+  ;; FIXME: change to defcustom
+  "Style used to format uniquifying directories.
+One of:
+- 'abbrev : minimal directories required to identify a unique file (may be 
empty)
+- 'full   : absolute directory path or empty")
+
+(defconst uniq-files-regexp "^\\(.*\\)<\\([^>]*\\)>?$"
+  ;; The trailing '>' is optional so the user can type "<dir" in the
+  ;; input buffer to complete directories.
+  "Regexp matching uniqufied file name.
+Match 1 is the filename, match 2 is the relative directory.")
+
+(defun uniq-file-dir-match (partial abs)
+  "Return the portion of ABS that matches PARTIAL; both are directories."
+  (cond
+   ((and partial
+        (< 0 (length partial)))
+    (let* ((pattern (completion-pcm--string->pattern partial nil))
+          (regex (completion-pcm--pattern->regex pattern)))
+
+      ;; `regex' is anchored at the beginning; delete the anchor to
+      ;; match a directory in the middle of ABS.  Also extend
+      ;; the match to the bounding '/'.
+      (setq regex (substring regex 2))
+      (unless (= ?/ (aref regex 0))
+       (setq regex (concat "/" regex)))
+      (unless (= ?/ (aref regex (1- (length regex))))
+       (setq regex (concat regex "[^/]*/" )))
+
+      (when (string-match regex abs);; Should never fail, but gives obscure 
error if it does
+       ;; Drop the leading '/'
+       (substring (match-string 0 abs) 1))
+      ))
+
+   (t
+    ;; no partial; nothing matches
+    "")
+   ))
+
+(defun uniq-files-conflicts (conflicts dir)
+  "Subroutine of `uniq-files-uniquify'."
+  (let ((common-root ;; shared prefix of dirs in conflicts - may be nil
+        (fill-common-string-prefix (file-name-directory (nth 0 conflicts)) 
(file-name-directory (nth 1 conflicts)))))
+
+    (let ((temp (cddr conflicts)))
+      (while (and common-root
+                 temp)
+       (setq common-root (fill-common-string-prefix common-root 
(file-name-directory (pop temp))))))
+
+    (when common-root
+      ;; Trim `common-root' back to last '/'
+      (let ((i (1- (length common-root))))
+       (while (and (> i 0)
+                   (not (= (aref common-root i) ?/)))
+         (setq i (1- i)))
+       (setq common-root (substring common-root 0 (1+ i)))))
+
+    (cl-mapcar
+     (lambda (name)
+       ;; `dir' can match more than one absolute directory, so we
+       ;; compute `completed-dir' for each element of conflicts.
+       ;;
+       ;; `completed-dir' may overlap only `common-root', or both
+       ;; `common-root' and `non-common'; eliminate the overlap with
+       ;; `non-common'.
+       ;;
+       ;; We can assume `completed-dir' matches at the end of
+       ;; `common-root', not in the middle.
+       ;;
+       ;; example (see uniquify-files-test.el test-uniq-file-uniquify, dir 
"Al/a-")
+       ;;   common        : c:/tmp/Alice/
+       ;;   non-common    : alice-2/
+       ;;   completed-dir : Alice/alice-2/
+       ;;
+       (let* ((completed-dir (and dir (uniq-file-dir-match dir 
(file-name-directory name))))
+             (completed-dirs (and completed-dir (nreverse (split-string 
completed-dir "/" t))))
+             (non-common (substring (file-name-directory name) (length 
common-root)))
+             (first-non-common (substring non-common 0 (string-match "/" 
non-common))))
+
+        (while completed-dirs
+          (let ((dir1 (pop completed-dirs)))
+            (when (not (string-equal dir1 first-non-common))
+              (setq non-common (concat dir1 "/" non-common)))))
+
+        (concat (file-name-nondirectory name)
+                "<"
+                non-common
+                ">")))
+     conflicts)
+    ))
+
+(defun uniq-file-uniquify (names dir)
+  "Return a uniquified list of names built from NAMES.
+NAMES contains absolute file names.
+
+The result contains non-directory filenames with partial
+directory paths appended.  The partial directory path will always
+include at least the completion of DIR.
+
+If DIR is non-nil, all elements of NAMES must match DIR."
+  (when names
+    (cl-ecase uniquify-files-style
+      (abbrev
+       (let (result
+            conflicts ;; list of names where all non-directory names are the 
same.
+            )
+
+        ;; Sort names so duplicates are grouped together
+        (setq names (sort names (lambda (a b)
+                                  (string< (file-name-nondirectory a) 
(file-name-nondirectory b)))))
+
+        (while names
+          (setq conflicts (list (pop names)))
+          (while (and names
+                      (string= (file-name-nondirectory (car conflicts)) 
(file-name-nondirectory (car names))))
+            (push (pop names) conflicts))
+
+          (if (= 1 (length conflicts))
+              (let ((completed-dir (and dir (uniq-file-dir-match dir 
(file-name-directory (car conflicts))))))
+                (push
+                 (if completed-dir
+                     (concat (file-name-nondirectory (car conflicts)) "<" 
completed-dir ">")
+                   (concat (file-name-nondirectory (car conflicts))))
+                 result))
+
+            (setq result (append (uniq-files-conflicts conflicts dir) result)))
+          )
+        (nreverse result)
+        ))
+
+      (full
+       names)
+      )))
+
+(defun uniq-file-normalize (user-string)
+  "Convert USER-STRING to table input string."
+  (let* ((match (string-match uniq-files-regexp user-string))
+        (dir (and match (match-string 2 user-string))))
+
+    (if match
+       (if (= 0 (length dir)) ;; ie "file<"
+           (match-string 1 user-string)
+         (concat (file-name-as-directory dir) (match-string 1 user-string)))
+
+      ;; else not uniquified
+      user-string)))
+
+(defun uniq-file-valid-completion (string all)
+  "Return non-nil if STRING is a valid completion in ALL,
+else return nil.  ALL should be the result of `all-completions'.
+STRING should be in completion table input format."
+  ;; STRING is a valid completion if its normalization is a tail of
+  ;; one element of ALL.
+  (let* ((regexp (concat (unless (file-name-absolute-p string) "/") string 
"\\'"))
+        (matched nil)
+        name)
+
+    (while (and all
+               (not matched))
+      (setq name (pop all))
+      (when (string-match regexp name)
+       (setq matched t)))
+
+    matched))
+
+(defun completion-uniquify-file-try-completion (string table pred point)
+  "Implement `completion-try-completion' for uniquify-file."
+  (cond
+   ((functionp table) ;; normal case
+    (let* ((table-string (uniq-file-normalize string))
+          (abs-all (all-completions table-string table pred)))
+
+      (cond
+       ((null abs-all) ;; No matches.
+       nil)
+
+       ((= 1 (length abs-all)) ;; One match; unique.
+
+       (if (uniq-file-valid-completion table-string abs-all)
+           t
+
+         (let ((result (car (uniq-file-uniquify abs-all (file-name-directory 
table-string)))))
+           (cons result (length result)))))
+
+       (t ;; Multiple matches
+
+       ;; Find merged completion of uniqified file names
+       (let* ((uniq-all (uniq-file-uniquify abs-all (file-name-directory 
table-string)))
+              (completion-pcm--delim-wild-regex
+               (cl-ecase uniquify-files-style
+                 (abbrev
+                  (concat "[" completion-pcm-word-delimiters "<>*]"))
+                 (full
+                  completion-pcm--delim-wild-regex)))
+              (pattern (completion-pcm--string->pattern string point))
+              (merged-pat (completion-pcm--merge-completions uniq-all pattern))
+
+              ;; `merged-pat' is in reverse order.  Place new point at:
+              (point-pat (or (memq 'point merged-pat) ;; the old point
+                             (memq 'any   merged-pat) ;; a place where there's 
something to choose
+                             (memq 'star  merged-pat) ;; ""
+                             merged-pat))             ;; the end
+
+              ;; `merged-pat' does not contain 'point when the field
+              ;; containing 'point is fully completed.
+
+              (new-point (length (completion-pcm--pattern->string point-pat)))
+
+              ;; Compute this after `new-point' because `nreverse'
+              ;; changes `point-pat' by side effect.
+              (merged (completion-pcm--pattern->string (nreverse merged-pat))))
+
+         (cons merged new-point)))
+       )))
+
+   ;; The following cases handle being called from
+   ;; icomplete-completions with result of all-completions instead of
+   ;; the real table function.
+
+   ((null table) ;; No matches.
+    nil)
+
+   ((consp table)
+    (cond
+     ((= 1 (length table)) ;; One match; unique.
+
+      (if (string-equal string (car table))
+           t
+
+         (let ((result (car table)))
+           (cons result (length result)))))
+
+     (t ;; Multiple matches
+
+      ;; Find merged completion of uniqified file names
+      (let* ((completion-pcm--delim-wild-regex
+             (cl-ecase uniquify-files-style
+               (abbrev
+                (concat "[" completion-pcm-word-delimiters "<>*]"))
+               (full
+                completion-pcm--delim-wild-regex)))
+            ;; If STRING ends in an empty directory part, some valid
+            ;; completions won't have any directory part.
+            (trimmed-string
+             (if (and (< 0 (length string))
+                      (= (aref string (1- (length string))) ?<))
+                 (substring string 0 -1)
+               string))
+            (pattern (completion-pcm--string->pattern trimmed-string point))
+            (merged-pat (completion-pcm--merge-completions table pattern))
+
+            ;; `merged-pat' is in reverse order.  Place new point at:
+            (point-pat (or (memq 'point merged-pat) ;; the old point
+                           (memq 'any   merged-pat) ;; a place where there's 
something to choose
+                           (memq 'star  merged-pat) ;; ""
+                           merged-pat))             ;; the end
+
+            ;; `merged-pat' does not contain 'point when the field
+            ;; containing 'point is fully completed.
+
+            (new-point (length (completion-pcm--pattern->string point-pat)))
+
+            ;; Compute this after `new-point' because `nreverse'
+            ;; changes `point-pat' by side effect.
+            (merged (completion-pcm--pattern->string (nreverse merged-pat))))
+
+       (cons merged new-point)))
+       ))
+   ))
+
+(defun uniq-files-hilit (string all point)
+  "Apply face text properties to each element of ALL.
+STRING is the current user input.
+ALL is a list of strings in user format.
+POINT is the position of point in STRING.
+Returns new list.
+
+Adds the face `completions-first-difference' to the first
+character after each completion field."
+  ;; IMPROVEME: duplicates `completion-uniquify-file-try-completion';
+  ;; consider refactor and cache.
+  (let* ((completion-pcm--delim-wild-regex
+         (cl-ecase uniquify-files-style
+           (abbrev
+            (concat "[" completion-pcm-word-delimiters "<>*]"))
+           (full
+            completion-pcm--delim-wild-regex)
+           ))
+        ;; If STRING ends in an empty directory part, some valid
+        ;; completions won't have any directory part.
+        (trimmed-string
+         (if (and (< 0 (length string))
+                  (= (aref string (1- (length string))) ?<))
+             (substring string 0 -1)
+           string))
+        (pattern (completion-pcm--string->pattern trimmed-string point))
+        (merged-pat (nreverse (completion-pcm--merge-completions all pattern)))
+        (field-count 0)
+        (regex (completion-pcm--pattern->regex merged-pat '(any star any-delim 
point)))
+        )
+    (dolist (x merged-pat)
+      (when (not (stringp x))
+       (setq field-count (1+ field-count))))
+
+    (mapcar
+     (lambda (string)
+       (when (string-match regex string)
+        (cl-loop
+         for i from 1 to field-count
+         do
+         (when (and
+                (match-beginning i)
+                (<= (1+ (match-beginning i)) (length string)))
+           (put-text-property (match-beginning i) (1+ (match-beginning i)) 
'face 'completions-first-difference string))
+         ))
+       string)
+     all)))
+
+(defun completion-uniquify-file-all-completions (user-string table pred point)
+  "Implement `completion-all-completions' for uniquify-file."
+
+  ;; Convert `user-string' to dir/name format, extract dir for uniquify
+  (let* ((table-string (uniq-file-normalize user-string))
+        (all (uniq-file-uniquify (all-completions table-string table pred)
+                                 (file-name-directory table-string))))
+
+    (when all
+      (uniq-files-hilit user-string all point))
+    ))
+
+(defun completion-uniquify-file-get-data-string (user-string table pred)
+  "Implement `completion-get-data-string' for 'uniq-file."
+  ;; We assume USER-STRING is complete, but it may not be unique, in
+  ;; both the file name and the directory; shortest completion of each
+  ;; portion is the correct one.
+  (let ((all (all-completions (uniq-file-normalize user-string) table pred)))
+    (setq
+     all
+     (sort all
+          (lambda (a b)
+            (let ((lfa (length (file-name-nondirectory a)))
+                  (lfb (length (file-name-nondirectory b))))
+              (if (= lfa lfb)
+                  (< (length a) (length b))
+                (< lfa lfb))
+              ))
+          ))
+    (car all)))
+
+(defun completion-get-data-string (user-string table pred)
+  "Return the data string corresponding to USER-STRING."
+  ;; IMPROVEME: should use `completion--category-override' and
+  ;; `completion-styles-alist' in general, but this is adequate
+  ;; for this case.
+  (cl-case (completion-metadata-get (completion-metadata user-string table 
pred) 'category)
+    (uniq-file (completion-uniquify-file-get-data-string user-string table 
pred))
+    (t user-string)
+  ))
+
+(defun uniq-file-test-completion-advice (orig-fun string table &optional pred)
+  "Advice for `test-completion'; convert display string to table input."
+  (let ((metadata (completion-metadata string table pred)))
+    (cl-case (completion-metadata-get metadata 'category)
+      (uniq-file
+       ;; IMPROVEME: should use `completion--category-override' and
+       ;; `completion-styles-alist' in general, but this is adequate
+       ;; for this case.
+       (let ((table-string (uniq-file-normalize string)))
+        (uniq-file-valid-completion table-string (all-completions table-string 
table pred))))
+
+      (t
+       (funcall orig-fun string table pred))
+      )))
+
+(advice-add #'test-completion :around #'uniq-file-test-completion-advice)
+
+(defun uniq-file-completing-read-default-advice (orig-fun prompt collection 
&optional predicate
+                                                         require-match 
initial-input hist def
+                                                         inherit-input-method)
+  "Advice for `completing-read-default'; convert display string to data 
string."
+  (let ((user-string (funcall orig-fun prompt collection
+                             predicate require-match initial-input hist def
+                             inherit-input-method)))
+    (completion-get-data-string user-string collection predicate)
+    ))
+
+(advice-add #'completing-read-default :around 
#'uniq-file-completing-read-default-advice)
+
+(add-to-list 'completion-category-defaults '(uniq-file (styles . 
(uniquify-file))))
+
+(add-to-list 'completion-styles-alist
+            '(uniquify-file
+              completion-uniquify-file-try-completion
+              completion-uniquify-file-all-completions
+              "display uniquified filenames."))
+
+(defun uniq-file-completion-table (path-iter string pred action)
+  "Do completion for file names in `locate-uniquified-file'.
+
+PATH-ITER is a `path-iterator' object. It will be restarted for
+each call to `uniq-file-completion-table'.
+
+STRING is the entire current user input, which is expected to be
+a non-directory file name, plus enough directory portions to
+identify a unique file.  `*' is treated as a wildcard, as in a
+shell glob pattern.
+
+If PRED is nil, it is ignored. If non-nil, it must be a function
+that takes one argument; the absolute file name.  The file name
+is included in the result if PRED returns non-nil. In either
+case, `completion-ignored-extensions', `completion-regexp-list',
+`completion-ignore-case' are used as described in
+`file-name-all-completions'.
+
+ACTION is the current completion action; one of:
+
+- nil; return common prefix of all completions of STRING, nil or
+  t; see `try-completion'. This table always returns nil.
+
+- t; return all completions; see `all-completions'
+
+- lambda; return non-nil if string is a valid completion; see
+  `test-completion'.
+
+- '(boundaries . SUFFIX); return the completion region
+  '(boundaries START . END) within STRING; see
+  `completion-boundaries'.
+
+- 'metadata; return (metadata . ALIST) as defined by
+  `completion-metadata'.
+
+Return a list of absolute file names matching STRING, using
+`partial-completion' style matching."
+
+  ;; We don't use cl-assert on the path here, because that would be
+  ;; called more often than necessary, and because throwing an error
+  ;; from inside completing-read and/or icomplete is not helpful.
+
+  (cond
+   ((eq (car-safe action) 'boundaries)
+    ;; We don't use boundaries; return the default definition.
+    (cons 'boundaries
+         (cons 0 (length (cdr action)))))
+
+   ((eq action 'metadata)
+    (cons 'metadata
+         (list
+          ;; We specify the category 'uniq-file here, because the
+          ;; input STRING is not a prefix of the returned results
+          ;; (absolute file name), which is a requirement of most
+          ;; completion styles.  We use the default sort order, which
+          ;; is shortest first, so "project.el" is easier to complete
+          ;; when it also matches "project-am.el".
+          '(category . uniq-file))))
+
+   ((null action)
+    ;; Called from `try-completion'; should never get here (see
+    ;; `completion-uniquify-file-try-completion').
+    nil)
+
+   ((eq action 'lambda)
+    ;; Called from `test-completion'; should never get here (see
+    ;; uniq-file-test-completion-advice).
+    nil)
+
+   ((eq action t) ;; Called from all-completions
+
+    ;; `completion-regexp-list', is matched against file names and
+    ;; directories relative to `dir'.  Thus to handle partial
+    ;; completion delimiters in `string', we construct two regexps
+    ;; from `string'; one from the directory portion, and one from the
+    ;; non-directory portion.  We use the directory regexp here, and
+    ;; pass the non-directory regexp to `file-name-all-completions'
+    ;; via `completion-regexp-list'.  The `string' input to
+    ;; `file-name-all-completions' is redundant with the regexp, so we
+    ;; always build a regexp, and pass an empty string.
+
+    (let* ((dir-name (directory-file-name (or (file-name-directory string) 
"")))
+          (file-name (file-name-nondirectory string))
+
+          ;; `completion-pcm--string->pattern' assumes its argument
+          ;; is anchored at the beginning but not the end; that is
+          ;; true for `dir-name' only if it is absolute.
+          (dir-pattern (completion-pcm--string->pattern
+                        (if (file-name-absolute-p dir-name) dir-name (concat 
"*/" dir-name))))
+          (dir-regex (completion-pcm--pattern->regex dir-pattern))
+
+          ;; Child directories of `dir' are not valid completions
+          ;; (`path-iterator' handles recursion).
+          ;; `file-name-all-completions' returns child directories
+          ;; with a trailing '/', but that is added _after_ they are
+          ;; matched against `completion-regexp-list'. So we exclude
+          ;; them below.
+          (file-pattern (completion-pcm--string->pattern file-name))
+          (file-regex (completion-pcm--pattern->regex file-pattern))
+
+          ;; A project that deals only with C files might set
+          ;; `completion-regexp-list' to match only *.c, *.h, so we
+          ;; preserve that here.
+          (completion-regexp-list (cons file-regex completion-regexp-list))
+          (result nil))
+
+      (path-iter-restart path-iter)
+
+      (let (dir)
+       (while (setq dir (path-iter-next path-iter))
+         (when (string-match dir-regex dir)
+           (cl-mapc
+            (lambda (filename)
+              (let ((absfile (concat (file-name-as-directory dir) filename)))
+                (when (and (not (directory-name-p filename))
+                           (or (null pred)
+                               (funcall pred absfile)))
+                  (push absfile result))))
+            (file-name-all-completions "" dir))
+           )))
+      result))
+   ))
+
+(defun locate-uniquified-file (&optional path predicate default prompt)
+  "Return an absolute filename, with completion in non-recursive PATH
+\(default `load-path').  If PREDICATE is nil, it is ignored. If
+non-nil, it must be a function that takes one argument; the
+absolute file name.  The file name is included in the result if
+PRED returns non-nil. DEFAULT is the default for completion.
+
+In the user input string, `*' is treated as a wildcard."
+  (interactive)
+  (let ((iter (make-path-iterator :user-path-non-recursive (or path 
load-path))))
+    (completing-read (or prompt "file: ")
+                    (apply-partially #'uniq-file-completion-table iter)
+                    predicate t nil nil default)
+    ))
+
+(defun locate-uniquified-file-iter (iter &optional predicate default prompt)
+  "Return an absolute filename, with completion in path-iterator ITER.
+If PREDICATE is nil, it is ignored. If non-nil, it must be a
+function that takes one argument; the absolute file name.  The
+file name is included in the result if PRED returns
+non-nil. DEFAULT is the default for completion.
+
+In the user input string, `*' is treated as a wildcard."
+  (completing-read (format (concat (or prompt "file") " (%s): ") default)
+                  (apply-partially #'uniq-file-completion-table iter)
+                  predicate t nil nil default)
+  )
+
+(provide 'uniquify-files)

Reply via email to