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;;; haskell-complete-module.el --- A fast way to complete Haskell module names -*- lexical-binding: t -*-
;; Copyright (c) 2014 Chris Done. All rights reserved.
;; This file 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, or (at your option)
;; any later version.
;; This file 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 this program. If not, see <http://www.gnu.org/licenses/>.
;;; Code:
(require 'cl-lib)
(defcustom haskell-complete-module-preferred
'()
"Override ordering of module results by specifying preferred modules."
:group 'haskell
:type '(repeat string))
(defcustom haskell-complete-module-max-display
10
"Maximum items to display in minibuffer."
:group 'haskell
:type 'number)
(defun haskell-complete-module-read (prompt candidates)
"Interactively auto-complete from a list of candidates."
(let ((stack (list))
(pattern "")
(result nil))
(delete-dups candidates)
(setq candidates
(sort candidates
(lambda (a b)
(let ((a-mem (member a haskell-complete-module-preferred))
(b-mem (member b haskell-complete-module-preferred)))
(cond
((and a-mem (not b-mem))
t)
((and b-mem (not a-mem))
nil)
(t
(string< a b)))))))
(while (not result)
(let ((key
(key-description
(vector
(read-key
(concat (propertize prompt 'face 'minibuffer-prompt)
(propertize pattern 'face 'font-lock-type-face)
"{"
(mapconcat #'identity
(let* ((i 0))
(cl-loop for candidate in candidates
while (<= i haskell-complete-module-max-display)
do (cl-incf i)
collect (cond ((> i haskell-complete-module-max-display)
"...")
((= i 1)
(propertize candidate 'face 'ido-first-match-face))
(t candidate))))
" | ")
"}"))))))
(cond
((string= key "C-g")
(keyboard-quit))
((string= key "DEL")
(unless (null stack)
(setq candidates (pop stack)))
(unless (string= "" pattern)
(setq pattern (substring pattern 0 -1))))
((string= key "RET")
(setq result (or (car candidates)
pattern)))
((string= key "<left>")
(setq candidates
(append (last candidates)
(butlast candidates))))
((string= key "<right>")
(setq candidates
(append (cdr candidates)
(list (car candidates)))))
(t
(when (string-match "[A-Za-z0-9_'.]+" key)
(push candidates stack)
(setq pattern (concat pattern key))
(setq candidates (haskell-complete-module pattern candidates)))))))
result))
(defun haskell-complete-module (pattern candidates)
"Filter the CANDIDATES using PATTERN."
(let ((case-fold-search t))
(cl-loop for candidate in candidates
when (haskell-complete-module-match pattern candidate)
collect candidate)))
(defun haskell-complete-module-match (pattern text)
"Match PATTERN against TEXT."
(string-match (haskell-complete-module-regexp pattern)
text))
(defun haskell-complete-module-regexp (pattern)
"Make a regular expression for the given module pattern. Example:
\"c.m.s\" -> \"^c[^.]*\\.m[^.]*\\.s[^.]*\"
"
(let ((components (mapcar #'haskell-complete-module-component
(split-string pattern "\\." t))))
(concat "^"
(mapconcat #'identity
components
"\\."))))
(defun haskell-complete-module-component (component)
"Make a regular expression for the given component. Example:
\"co\" -> \"c[^.]*o[^.]*\"
"
(replace-regexp-in-string "\\(.\\)" "\\1[^.]*" component))
(provide 'haskell-complete-module)