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haskell-indent.el
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haskell-indent.el
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;;; haskell-indent.el --- "semi-intelligent" indentation module for Haskell Mode -*- lexical-binding: t -*-
;; Copyright 2004, 2005, 2007, 2008, 2009 Free Software Foundation, Inc.
;; Copyright 1997-1998 Guy Lapalme
;; Author: 1997-1998 Guy Lapalme <[email protected]>
;; Keywords: indentation Haskell layout-rule
;; URL: http://www.iro.umontreal.ca/~lapalme/layout/index.html
;; This file is not part of GNU Emacs.
;; 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/>.
;;; Commentary:
;; Purpose:
;;
;; To support automatic indentation of Haskell programs using
;; the layout rule described in section 1.5 and appendix B.3 of the
;; the Haskell report. The rationale and the implementation principles
;; are described in an article to appear in Journal of Functional Programming.
;; "Dynamic tabbing for automatic indentation with the layout rule"
;;
;; It supports literate scripts.
;; Haskell indentation is performed
;; within \begin{code}...\end{code} sections of a literate script
;; and in lines beginning with > with Bird style literate script
;; TAB aligns to the left column outside of these sections.
;;
;; Installation:
;;
;; To turn indentation on for all Haskell buffers under the Haskell
;; mode of Moss&Thorn <http://www.haskell.org/haskell-mode/>
;; add this to .emacs:
;;
;; (add-hook 'haskell-mode-hook 'turn-on-haskell-indent)
;;
;; Otherwise, call `turn-on-haskell-indent'.
;;
;;
;; Customisation:
;; The "standard" offset for statements is 4 spaces.
;; It can be changed by setting the variable "haskell-indent-offset" to
;; another value
;;
;; The default number of blanks after > in a Bird style literate script
;; is 1; it can be changed by setting the variable
;; "haskell-indent-literate-Bird-default-offset"
;;
;; `haskell-indent-hook' is invoked if not nil.
;;
;; All functions/variables start with
;; `(turn-(on/off)-)haskell-indent' or `haskell-indent-'.
;; This file can also be used as a hook for the Hugs Mode developed by
;; Chris Van Humbeeck <[email protected]>
;; It can be obtained at:
;; http://www-i2.informatik.rwth-aachen.de/Forschung/FP/Haskell/hugs-mode.el
;;
;; For the Hugs mode put the following in your .emacs
;;
;;(setq auto-mode-alist (append auto-mode-alist '(("\\.hs\\'" . hugs-mode))))
;;(autoload 'hugs-mode "hugs-mode" "Go into hugs mode" t)
;;
;; If only the indentation mode is used then replace the two
;; preceding lines with
;;(setq auto-mode-alist (append auto-mode-alist
;; '(("\\.hs\\'" . turn-on-haskell-indent))))
;;(autoload 'turn-on-haskell-indent "hindent" "Indentation mode for Haskell" t)
;;
;; For indentation in both cases then add the following to your .emacs
;;(add-hook 'hugs-mode-hook 'turn-on-haskell-indent)
;;(autoload 'haskell-indent-cycle "hindent" "Indentation cycle for Haskell" t)
;;
;;; Code:
(require 'cl-lib)
(require 'haskell-string)
(defvar haskell-literate)
;;;###autoload
(defgroup haskell-indent nil
"Haskell indentation."
:group 'haskell
:link '(custom-manual "(haskell-mode)Indentation")
:prefix "haskell-indent-")
(defcustom haskell-indent-offset 4
"Indentation of Haskell statements with respect to containing block."
:type 'integer
:safe #'natnump
:group 'haskell-indent)
(defcustom haskell-indent-literate-Bird-default-offset 1
"Default number of blanks after > in a Bird style literate script."
:type 'integer
:safe #'natnump
:group 'haskell-indent)
(defcustom haskell-indent-rhs-align-column 0
"Column on which to align right-hand sides (use 0 for ad-hoc alignment)."
:type 'integer
:safe #'natnump
:group 'haskell-indent)
(defun haskell-indent-point-to-col (apoint)
"Return the column number of APOINT."
(save-excursion
(goto-char apoint)
(current-column)))
(defconst haskell-indent-start-keywords-re
(concat "\\<"
(regexp-opt '("class" "data" "import" "infix" "infixl" "infixr"
"instance" "module" "newtype" "primitive" "type") t)
"\\>")
"Regexp for keywords to complete when standing at the first word of a line.")
;; Customizations for different kinds of environments
;; in which dealing with low-level events are different.
(defun haskell-indent-mark-active ()
(if (featurep 'xemacs)
(if zmacs-regions
zmacs-region-active-p
t)
mark-active))
;; for pushing indentation information
(defvar haskell-indent-info) ;Used with dynamic scoping.
(defun haskell-indent-push-col (col &optional name)
"Push indentation information for the column COL.
The info is followed by NAME (if present).
Makes sure that the same indentation info is not pushed twice.
Uses free var `haskell-indent-info'."
(let ((tmp (cons col name)))
(if (member tmp haskell-indent-info)
haskell-indent-info
(push tmp haskell-indent-info))))
(defun haskell-indent-push-pos (pos &optional name)
"Push indentation information for POS followed by NAME (if present)."
(haskell-indent-push-col (haskell-indent-point-to-col pos) name))
;; (defvar haskell-indent-tab-align nil
;; "Align all indentations on TAB stops.")
(defun haskell-indent-column+offset (column offset)
(unless offset (setq offset haskell-indent-offset))
(setq column (+ column offset))
;; (if (and haskell-indent-tab-align (> offset 0))
;; (* 8 (/ (+ column 7) 8))
column) ;; )
(defun haskell-indent-push-pos-offset (pos &optional offset)
"Pushes indentation information for the column corresponding to POS
followed by an OFFSET (if present use its value otherwise use
`haskell-indent-offset')."
(haskell-indent-push-col (haskell-indent-column+offset
(haskell-indent-point-to-col pos)
offset)))
;; redefinition of some Emacs function for dealing with
;; Bird Style literate scripts
(defun haskell-indent-bolp ()
"`bolp' but dealing with Bird-style literate scripts."
(or (bolp)
(and (eq haskell-literate 'bird)
(<= (current-column) (1+ haskell-indent-literate-Bird-default-offset))
(eq (char-after (line-beginning-position)) ?\>))))
(defun haskell-indent-empty-line-p ()
"Checks if the current line is empty; deals with Bird style scripts."
(save-excursion
(beginning-of-line)
(if (and (eq haskell-literate 'bird)
(eq (following-char) ?\>))
(forward-char 1))
(looking-at "[ \t]*$")))
(defun haskell-indent-back-to-indentation ()
"`back-to-indentation' function but dealing with Bird-style literate scripts."
(if (and (eq haskell-literate 'bird)
(progn (beginning-of-line) (eq (following-char) ?\>)))
(progn
(forward-char 1)
(skip-chars-forward " \t"))
(back-to-indentation)))
(defun haskell-indent-current-indentation ()
"`current-indentation' function dealing with Bird-style literate scripts."
(if (eq haskell-literate 'bird)
(save-excursion
(haskell-indent-back-to-indentation)
(current-column))
(current-indentation)))
(defun haskell-indent-backward-to-indentation (n)
"`backward-to-indentation' function dealing with Bird-style literate scripts."
(if (eq haskell-literate 'bird)
(progn
(forward-line (- n))
(haskell-indent-back-to-indentation))
(backward-to-indentation n)))
(defun haskell-indent-forward-line (&optional n)
"`forward-line' function but dealing with Bird-style literate scripts."
(prog1
(forward-line n)
(if (and (eq haskell-literate 'bird) (eq (following-char) ?\>))
(progn (forward-char 1) ; skip > and initial blanks...
(skip-chars-forward " \t")))))
(defun haskell-indent-line-to (n)
"`indent-line-to' function but dealing with Bird-style literate scripts."
(if (eq haskell-literate 'bird)
(progn
(beginning-of-line)
(if (eq (following-char) ?\>)
(delete-char 1))
(delete-horizontal-space) ; remove any starting TABs so
(indent-line-to n) ; that indent-line only adds spaces
(save-excursion
(beginning-of-line)
(if (> n 0) (delete-char 1)) ; delete the first space before
(insert ?\>))) ; inserting a >
(indent-line-to n)))
(defun haskell-indent-skip-blanks-and-newlines-forward (end)
"Skip forward blanks, tabs and newlines until END.
Take account of Bird-style literate scripts."
(skip-chars-forward " \t\n" end)
(if (eq haskell-literate 'bird)
(while (and (bolp) (eq (following-char) ?\>))
(forward-char 1) ; skip >
(skip-chars-forward " \t\n" end))))
(defun haskell-indent-skip-blanks-and-newlines-backward (start)
"Skip backward blanks, tabs and newlines up to START.
Take account of Bird-style literate scripts."
(skip-chars-backward " \t\n" start)
(if (eq haskell-literate 'bird)
(while (and (eq (current-column) 1)
(eq (preceding-char) ?\>))
(forward-char -1) ; skip back >
(skip-chars-backward " \t\n" start))))
;; specific functions for literate code
(defun haskell-indent-within-literate-code ()
"Check if point is within a part of literate Haskell code.
If so, return its start; otherwise return nil:
If it is Bird-style, then return the position of the >;
otherwise return the ending position of \\begin{code}."
(save-excursion
(cl-case haskell-literate
(bird
(beginning-of-line)
(if (or (eq (following-char) ?\>)
(and (bolp) (forward-line -1) (eq (following-char) ?\>)))
(progn
(while (and (zerop (forward-line -1))
(eq (following-char) ?\>)))
(if (not (eq (following-char) ?\>))
(forward-line))
(point))))
;; Look for a \begin{code} or \end{code} line.
((latex tex)
(if (re-search-backward
"^\\(\\\\begin{code}$\\)\\|\\(\\\\end{code}$\\)" nil t)
;; within a literate code part if it was a \\begin{code}.
(match-end 1)))
(t (error "haskell-indent-within-literate-code: should not happen!")))))
(defun haskell-indent-put-region-in-literate (beg end &optional arg)
"Put lines of the region as a piece of literate code.
With prefix arg, remove indication that the region is literate code.
It deals with both Bird style and non Bird-style scripts."
(interactive "r\nP")
(unless haskell-literate
(error "Cannot put a region in literate in a non literate script"))
(if (eq haskell-literate 'bird)
(let ((comment-start "> ") ; Change dynamic bindings for
(comment-start-skip "^> ?") ; comment-region.
(comment-end "")
(comment-end-skip "\n")
(comment-style 'plain))
(comment-region beg end arg))
;; Not Bird style.
(if arg ; Remove the literate indication.
(save-excursion
(goto-char end) ; Remove end.
(if (re-search-backward "^\\\\end{code}[ \t\n]*\\="
(line-beginning-position -2) t)
(delete-region (point) (line-beginning-position 2)))
(goto-char beg) ; Remove end.
(beginning-of-line)
(if (looking-at "\\\\begin{code}")
(kill-line 1)))
(save-excursion ; Add the literate indication.
(goto-char end)
(unless (bolp) (newline))
(insert "\\end{code}\n")
(goto-char beg)
(unless (bolp) (newline))
(insert "\\begin{code}\n")))))
;;; Start of indentation code
(defcustom haskell-indent-look-past-empty-line t
"If nil, indentation engine will not look past an empty line for layout points."
:group 'haskell-indent
:safe #'booleanp
:type 'boolean)
(defun haskell-indent-start-of-def ()
"Return the position of the start of a definition.
The start of a def is expected to be recognizable by starting in column 0,
unless `haskell-indent-look-past-empty-line' is nil, in which case we
take a coarser approximation and stop at the first empty line."
(save-excursion
(let ((start-code (and haskell-literate
(haskell-indent-within-literate-code)))
(top-col (if (eq haskell-literate 'bird) 2 0))
(save-point (point)))
;; determine the starting point of the current piece of code
(setq start-code (if start-code (1+ start-code) (point-min)))
;; go backward until the first preceding empty line
(haskell-indent-forward-line -1)
(while (and (if haskell-indent-look-past-empty-line
(or (> (haskell-indent-current-indentation) top-col)
(haskell-indent-empty-line-p))
(and (> (haskell-indent-current-indentation) top-col)
(not (haskell-indent-empty-line-p))))
(> (point) start-code)
(= 0 (haskell-indent-forward-line -1))))
;; go forward after the empty line
(if (haskell-indent-empty-line-p)
(haskell-indent-forward-line 1))
(setq start-code (point))
;; find the first line of code which is not a comment
(forward-comment (point-max))
(if (> (point) save-point)
start-code
(point)))))
(defun haskell-indent-open-structure (start end)
"If any structure (list or tuple) is not closed, between START and END,
returns the location of the opening symbol, nil otherwise."
(save-excursion
(nth 1 (parse-partial-sexp start end))))
(defun haskell-indent-in-string (start end)
"If a string is not closed , between START and END, returns the
location of the opening symbol, nil otherwise."
(save-excursion
(let ((pps (parse-partial-sexp start end)))
(if (nth 3 pps) (nth 8 pps)))))
(defun haskell-indent-in-comment (start end)
"Check, starting from START, if END is at or within a comment.
Returns the location of the start of the comment, nil otherwise."
(let (pps)
(cl-assert (<= start end))
(cond ((= start end) nil)
((nth 4 (save-excursion (setq pps (parse-partial-sexp start end))))
(nth 8 pps))
;; We also want to say that we are *at* the beginning of a comment.
((and (not (nth 8 pps))
(>= (point-max) (+ end 2))
(nth 4 (save-excursion
(setq pps (parse-partial-sexp end (+ end 2))))))
(nth 8 pps)))))
(defvar haskell-indent-off-side-keywords-re
"\\<\\(do\\|let\\|of\\|where\\|mdo\\|rec\\)\\>[ \t]*")
(defun haskell-indent-type-at-point ()
"Return the type of the line (also puts information in `match-data')."
(cond
((haskell-indent-empty-line-p) 'empty)
((haskell-indent-in-comment (point-min) (point)) 'comment)
((looking-at "\\(\\([[:alpha:]]\\(\\sw\\|'\\)*\\)\\|_\\)[ \t\n]*")
'ident)
((looking-at "\\(|[^|]\\)[ \t\n]*") 'guard)
((looking-at "\\(=[^>=]\\|::\\|∷\\|→\\|←\\|->\\|<-\\)[ \t\n]*") 'rhs)
(t 'other)))
(defvar haskell-indent-current-line-first-ident ""
"Global variable that keeps track of the first ident of the line to indent.")
(defun haskell-indent-contour-line (start end)
"Generate contour information between START and END points."
(if (< start end)
(save-excursion
(goto-char end)
(haskell-indent-skip-blanks-and-newlines-backward start)
(let ((cur-col (current-column)) ; maximum column number
(fl 0) ; number of lines that forward-line could not advance
contour)
(while (and (> cur-col 0) (= fl 0) (>= (point) start))
(haskell-indent-back-to-indentation)
(if (< (point) start) (goto-char start))
(and (not (member (haskell-indent-type-at-point)
'(empty comment))) ; skip empty and comment lines
(< (current-column) cur-col) ; less indented column found
(push (point) contour) ; new contour point found
(setq cur-col (current-column)))
(setq fl (haskell-indent-forward-line -1)))
contour))))
(defun haskell-indent-next-symbol (end)
"Move point to the next symbol."
(skip-syntax-forward ")" end)
(if (< (point) end)
(progn
(forward-sexp 1)
(haskell-indent-skip-blanks-and-newlines-forward end))))
(defun haskell-indent-next-symbol-safe (end)
"Puts point to the next following symbol, or to end if there are no more symbols in the sexp."
(condition-case _errlist (haskell-indent-next-symbol end)
(error (goto-char end))))
(defun haskell-indent-separate-valdef (start end)
"Return a list of positions for important parts of a valdef."
(save-excursion
(let (valname valname-string aft-valname
guard aft-guard
rhs-sign aft-rhs-sign
type)
;; "parse" a valdef separating important parts
(goto-char start)
(setq type (haskell-indent-type-at-point))
(if (or (memq type '(ident other))) ; possible start of a value def
(progn
(if (eq type 'ident)
(progn
(setq valname (match-beginning 0))
(setq valname-string (match-string 0))
(goto-char (match-end 0)))
(skip-chars-forward " \t" end)
(setq valname (point)) ; type = other
(haskell-indent-next-symbol-safe end))
(while (and (< (point) end)
(setq type (haskell-indent-type-at-point))
(or (memq type '(ident other))))
(if (null aft-valname)
(setq aft-valname (point)))
(haskell-indent-next-symbol-safe end))))
(if (and (< (point) end) (eq type 'guard)) ; start of a guard
(progn
(setq guard (match-beginning 0))
(goto-char (match-end 0))
(while (and (< (point) end)
(setq type (haskell-indent-type-at-point))
(not (eq type 'rhs)))
(if (null aft-guard)
(setq aft-guard (point)))
(haskell-indent-next-symbol-safe end))))
(if (and (< (point) end) (eq type 'rhs)) ; start of a rhs
(progn
(setq rhs-sign (match-beginning 0))
(goto-char (match-end 0))
(if (< (point) end)
(setq aft-rhs-sign (point)))))
(list valname valname-string aft-valname
guard aft-guard rhs-sign aft-rhs-sign))))
(defsubst haskell-indent-no-otherwise (guard)
"Check if there is no otherwise at GUARD."
(save-excursion
(goto-char guard)
(not (looking-at "|[ \t]*otherwise\\>"))))
(defun haskell-indent-guard (start end end-visible indent-info)
"Find indentation information for a line starting with a guard."
(save-excursion
(let* ((haskell-indent-info indent-info)
(sep (haskell-indent-separate-valdef start end))
(valname (nth 0 sep))
(guard (nth 3 sep))
(rhs-sign (nth 5 sep)))
;; push information indentation for the visible part
(if (and guard (< guard end-visible) (haskell-indent-no-otherwise guard))
(haskell-indent-push-pos guard)
(if rhs-sign
(haskell-indent-push-pos rhs-sign) ; probably within a data definition...
(if valname
(haskell-indent-push-pos-offset valname))))
haskell-indent-info)))
(defun haskell-indent-rhs (start end end-visible indent-info)
"Find indentation information for a line starting with a rhs."
(save-excursion
(let* ((haskell-indent-info indent-info)
(sep (haskell-indent-separate-valdef start end))
(valname (nth 0 sep))
(guard (nth 3 sep))
(rhs-sign (nth 5 sep)))
;; push information indentation for the visible part
(if (and rhs-sign (< rhs-sign end-visible))
(haskell-indent-push-pos rhs-sign)
(if (and guard (< guard end-visible))
(haskell-indent-push-pos-offset guard)
(if valname ; always visible !!
(haskell-indent-push-pos-offset valname))))
haskell-indent-info)))
(defconst haskell-indent-decision-table
(let ((or "\\)\\|\\("))
(concat "\\("
"1.1.11" or ; 1= vn gd rh arh
"1.1.10" or ; 2= vn gd rh
"1.1100" or ; 3= vn gd agd
"1.1000" or ; 4= vn gd
"1.0011" or ; 5= vn rh arh
"1.0010" or ; 6= vn rh
"110000" or ; 7= vn avn
"100000" or ; 8= vn
"001.11" or ; 9= gd rh arh
"001.10" or ;10= gd rh
"001100" or ;11= gd agd
"001000" or ;12= gd
"000011" or ;13= rh arh
"000010" or ;14= rh
"000000" ;15=
"\\)")))
(defun haskell-indent-find-case (test)
"Find the index that matches TEST in the decision table."
(if (string-match haskell-indent-decision-table test)
;; use the fact that the resulting match-data is a list of the form
;; (0 6 [2*(n-1) nil] 0 6) where n is the number of the matching regexp
;; so n= ((length match-data)/2)-1
(- (/ (length (match-data 'integers)) 2) 1)
(error "haskell-indent-find-case: impossible case: %s" test)))
(defun haskell-indent-empty (start end end-visible indent-info)
"Find indentation points for an empty line."
(save-excursion
(let* ((haskell-indent-info indent-info)
(sep (haskell-indent-separate-valdef start end))
(valname (pop sep))
(valname-string (pop sep))
(aft-valname (pop sep))
(guard (pop sep))
(aft-guard (pop sep))
(rhs-sign (pop sep))
(aft-rhs-sign (pop sep))
(last-line (= end end-visible))
(test (string
(if valname ?1 ?0)
(if (and aft-valname (< aft-valname end-visible)) ?1 ?0)
(if (and guard (< guard end-visible)) ?1 ?0)
(if (and aft-guard (< aft-guard end-visible)) ?1 ?0)
(if (and rhs-sign (< rhs-sign end-visible)) ?1 ?0)
(if (and aft-rhs-sign (< aft-rhs-sign end-visible)) ?1 ?0))))
(if (and valname-string ; special case for start keywords
(string-match haskell-indent-start-keywords-re valname-string))
(progn
(haskell-indent-push-pos valname)
;; very special for data keyword
(if (string-match "\\<data\\>" valname-string)
(if rhs-sign (haskell-indent-push-pos rhs-sign)
(haskell-indent-push-pos-offset valname))
(haskell-indent-push-pos-offset valname)))
(cl-case ; general case
(haskell-indent-find-case test)
;; "1.1.11" 1= vn gd rh arh
(1 (haskell-indent-push-pos valname)
(haskell-indent-push-pos valname valname-string)
(if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))
(haskell-indent-push-pos aft-rhs-sign))
;; "1.1.10" 2= vn gd rh
(2 (haskell-indent-push-pos valname)
(haskell-indent-push-pos valname valname-string)
(if last-line
(haskell-indent-push-pos-offset guard)
(if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))))
;; "1.1100" 3= vn gd agd
(3 (haskell-indent-push-pos valname)
(haskell-indent-push-pos aft-guard)
(if last-line (haskell-indent-push-pos-offset valname)))
;; "1.1000" 4= vn gd
(4 (haskell-indent-push-pos valname)
(if last-line (haskell-indent-push-pos-offset guard 2)))
;; "1.0011" 5= vn rh arh
(5 (haskell-indent-push-pos valname)
(if (or (and aft-valname (= (char-after rhs-sign) ?\=))
(= (char-after rhs-sign) ?\:))
(haskell-indent-push-pos valname valname-string))
(haskell-indent-push-pos aft-rhs-sign))
;; "1.0010" 6= vn rh
(6 (haskell-indent-push-pos valname)
(haskell-indent-push-pos valname valname-string)
(if last-line (haskell-indent-push-pos-offset valname)))
;; "110000" 7= vn avn
(7 (haskell-indent-push-pos valname)
(if last-line
(haskell-indent-push-pos aft-valname)
(haskell-indent-push-pos valname valname-string)))
;; "100000" 8= vn
(8 (haskell-indent-push-pos valname))
;; "001.11" 9= gd rh arh
(9 (if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))
(haskell-indent-push-pos aft-rhs-sign))
;; "001.10" 10= gd rh
(10 (if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))
(if last-line (haskell-indent-push-pos-offset guard)))
;; "001100" 11= gd agd
(11 (if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))
(haskell-indent-push-pos aft-guard))
;; "001000" 12= gd
(12 (if (haskell-indent-no-otherwise guard) (haskell-indent-push-pos guard "| "))
(if last-line (haskell-indent-push-pos-offset guard 2)))
;; "000011" 13= rh arh
(13 (haskell-indent-push-pos aft-rhs-sign))
;; "000010" 14= rh
(14 (if last-line (haskell-indent-push-pos-offset rhs-sign 2 )))
;; "000000" 15=
(t (error "haskell-indent-empty: %s impossible case" test ))))
haskell-indent-info)))
(defun haskell-indent-ident (start end end-visible indent-info)
"Find indentation points for a line starting with an identifier."
(save-excursion
(let*
((haskell-indent-info indent-info)
(sep (haskell-indent-separate-valdef start end))
(valname (pop sep))
(valname-string (pop sep))
(aft-valname (pop sep))
(guard (pop sep))
(aft-guard (pop sep))
(rhs-sign (pop sep))
(aft-rhs-sign (pop sep))
(last-line (= end end-visible))
(is-where
(string-match "where[ \t]*" haskell-indent-current-line-first-ident))
(diff-first ; not a function def with the same name
(or (null valname-string)
(not (string= (haskell-string-trim valname-string)
(haskell-string-trim haskell-indent-current-line-first-ident)))))
;; (is-type-def
;; (and rhs-sign (eq (char-after rhs-sign) ?\:)))
(test (string
(if valname ?1 ?0)
(if (and aft-valname (< aft-valname end-visible)) ?1 ?0)
(if (and guard (< guard end-visible)) ?1 ?0)
(if (and aft-guard (< aft-guard end-visible)) ?1 ?0)
(if (and rhs-sign (< rhs-sign end-visible)) ?1 ?0)
(if (and aft-rhs-sign (< aft-rhs-sign end-visible)) ?1 ?0))))
(if (and valname-string ; special case for start keywords
(string-match haskell-indent-start-keywords-re valname-string))
(progn
(haskell-indent-push-pos valname)
(if (string-match "\\<data\\>" valname-string)
;; very special for data keyword
(if aft-rhs-sign (haskell-indent-push-pos aft-rhs-sign)
(haskell-indent-push-pos-offset valname))
(if (not (string-match
haskell-indent-start-keywords-re
haskell-indent-current-line-first-ident))
(haskell-indent-push-pos-offset valname))))
(if (string= haskell-indent-current-line-first-ident "::")
(if valname (haskell-indent-push-pos valname))
(cl-case ; general case
(haskell-indent-find-case test)
;; "1.1.11" 1= vn gd rh arh
(1 (if is-where
(haskell-indent-push-pos guard)
(haskell-indent-push-pos valname)
(if diff-first (haskell-indent-push-pos aft-rhs-sign))))
;; "1.1.10" 2= vn gd rh
(2 (if is-where
(haskell-indent-push-pos guard)
(haskell-indent-push-pos valname)
(if last-line
(haskell-indent-push-pos-offset guard))))
;; "1.1100" 3= vn gd agd
(3 (if is-where
(haskell-indent-push-pos-offset guard)
(haskell-indent-push-pos valname)
(if diff-first
(haskell-indent-push-pos aft-guard))))
;; "1.1000" 4= vn gd
(4 (if is-where
(haskell-indent-push-pos guard)
(haskell-indent-push-pos valname)
(if last-line
(haskell-indent-push-pos-offset guard 2))))
;; "1.0011" 5= vn rh arh
(5 (if is-where
(haskell-indent-push-pos-offset valname)
(haskell-indent-push-pos valname)
(if diff-first
(haskell-indent-push-pos aft-rhs-sign))))
;; "1.0010" 6= vn rh
(6 (if is-where
(haskell-indent-push-pos-offset valname)
(haskell-indent-push-pos valname)
(if last-line
(haskell-indent-push-pos-offset valname))))
;; "110000" 7= vn avn
(7 (if is-where
(haskell-indent-push-pos-offset valname)
(haskell-indent-push-pos valname)
(if last-line
(haskell-indent-push-pos aft-valname))))
;; "100000" 8= vn
(8 (if is-where
(haskell-indent-push-pos-offset valname)
(haskell-indent-push-pos valname)))
;; "001.11" 9= gd rh arh
(9 (if is-where
(haskell-indent-push-pos guard)
(haskell-indent-push-pos aft-rhs-sign)))
;; "001.10" 10= gd rh
(10 (if is-where
(haskell-indent-push-pos guard)
(if last-line
(haskell-indent-push-pos-offset guard))))
;; "001100" 11= gd agd
(11 (if is-where
(haskell-indent-push-pos guard)
(if (haskell-indent-no-otherwise guard)
(haskell-indent-push-pos aft-guard))))
;; "001000" 12= gd
(12 (if last-line (haskell-indent-push-pos-offset guard 2)))
;; "000011" 13= rh arh
(13 (haskell-indent-push-pos aft-rhs-sign))
;; "000010" 14= rh
(14 (if last-line (haskell-indent-push-pos-offset rhs-sign 2)))
;; "000000" 15=
(t (error "haskell-indent-ident: %s impossible case" test )))))
haskell-indent-info)))
(defun haskell-indent-other (start end end-visible indent-info)
"Find indentation points for a non-empty line starting with something other
than an identifier, a guard or rhs."
(save-excursion
(let* ((haskell-indent-info indent-info)
(sep (haskell-indent-separate-valdef start end))
(valname (pop sep))
(valname-string (pop sep))
(aft-valname (pop sep))
(guard (pop sep))
(aft-guard (pop sep))
(rhs-sign (pop sep))
(aft-rhs-sign (pop sep))
(last-line (= end end-visible))
(test (string
(if valname ?1 ?0)
(if (and aft-valname (< aft-valname end-visible)) ?1 ?0)
(if (and guard (< guard end-visible)) ?1 ?0)
(if (and aft-guard (< aft-guard end-visible)) ?1 ?0)
(if (and rhs-sign (< rhs-sign end-visible)) ?1 ?0)
(if (and aft-rhs-sign (< aft-rhs-sign end-visible)) ?1 ?0))))
(if (and valname-string ; special case for start keywords
(string-match haskell-indent-start-keywords-re valname-string))
(haskell-indent-push-pos-offset valname)
(cl-case ; general case
(haskell-indent-find-case test)
;; "1.1.11" 1= vn gd rh arh
(1 (haskell-indent-push-pos aft-rhs-sign))
;; "1.1.10" 2= vn gd rh
(2 (if last-line
(haskell-indent-push-pos-offset guard)
(haskell-indent-push-pos-offset rhs-sign 2)))
;; "1.1100" 3= vn gd agd
(3 (haskell-indent-push-pos aft-guard))
;; "1.1000" 4= vn gd
(4 (haskell-indent-push-pos-offset guard 2))
;; "1.0011" 5= vn rh arh
(5 (haskell-indent-push-pos valname)
(haskell-indent-push-pos aft-rhs-sign))
;; "1.0010" 6= vn rh
(6 (if last-line
(haskell-indent-push-pos-offset valname)
(haskell-indent-push-pos-offset rhs-sign 2)))
;; "110000" 7= vn avn
(7 (haskell-indent-push-pos-offset aft-valname))
;; "100000" 8= vn
(8 (haskell-indent-push-pos valname))
;; "001.11" 9= gd rh arh
(9 (haskell-indent-push-pos aft-rhs-sign))
;; "001.10" 10= gd rh
(10 (if last-line
(haskell-indent-push-pos-offset guard)
(haskell-indent-push-pos-offset rhs-sign 2)))
;; "001100" 11= gd agd
(11 (if (haskell-indent-no-otherwise guard)
(haskell-indent-push-pos aft-guard)))
;; "001000" 12= gd
(12 (if last-line (haskell-indent-push-pos-offset guard 2)))
;; "000011" 13= rh arh
(13 (haskell-indent-push-pos aft-rhs-sign))
;; "000010" 14= rh
(14 (if last-line (haskell-indent-push-pos-offset rhs-sign 2)))
;; "000000" 15=
(t (error "haskell-indent-other: %s impossible case" test ))))
haskell-indent-info)))
(defun haskell-indent-valdef-indentation (start end end-visible curr-line-type
indent-info)
"Find indentation information for a value definition."
(let ((haskell-indent-info indent-info))
(if (< start end-visible)
(cl-case curr-line-type
(empty (haskell-indent-empty start end end-visible indent-info))
(ident (haskell-indent-ident start end end-visible indent-info))
(guard (haskell-indent-guard start end end-visible indent-info))
(rhs (haskell-indent-rhs start end end-visible indent-info))
(comment (error "Comment indent should never happen"))
(other (haskell-indent-other start end end-visible indent-info)))
haskell-indent-info)))
(defun haskell-indent-line-indentation (line-start line-end end-visible
curr-line-type indent-info)
"Compute indentation info between LINE-START and END-VISIBLE.
Separate a line of program into valdefs between offside keywords
and find indentation info for each part."
(save-excursion
;; point is (already) at line-start
(cl-assert (eq (point) line-start))
(let ((haskell-indent-info indent-info)
(start (or (haskell-indent-in-comment line-start line-end)
(haskell-indent-in-string line-start line-end))))
(if start ; if comment at the end
(setq line-end start)) ; end line before it
;; loop on all parts separated by off-side-keywords
(while (and (re-search-forward haskell-indent-off-side-keywords-re
line-end t)
(not (or (haskell-indent-in-comment line-start (point))
(haskell-indent-in-string line-start (point)))))
(let ((beg-match (match-beginning 0)) ; save beginning of match
(end-match (match-end 0))) ; save end of match
;; Do not try to find indentation points if off-side-keyword at
;; the start...
(if (or (< line-start beg-match)
;; Actually, if we're looking at a "let" inside a "do", we
;; should add the corresponding indentation point.
(eq (char-after beg-match) ?l))
(setq haskell-indent-info
(haskell-indent-valdef-indentation line-start beg-match
end-visible
curr-line-type
haskell-indent-info)))
;; ...but keep the start of the line if keyword alone on the line
(if (= line-end end-match)
(haskell-indent-push-pos beg-match))
(setq line-start end-match)
(goto-char line-start)))
(haskell-indent-valdef-indentation line-start line-end end-visible
curr-line-type haskell-indent-info))))
(defun haskell-indent-layout-indent-info (start contour-line)
(let ((haskell-indent-info nil)
(curr-line-type (haskell-indent-type-at-point))
line-start line-end end-visible)
(save-excursion
(if (eq curr-line-type 'ident)
(let ; guess the type of line
((sep
(haskell-indent-separate-valdef
(point) (line-end-position))))
;; if the first ident is where or the start of a def
;; keep it in a global variable
(setq haskell-indent-current-line-first-ident
(if (string-match "where[ \t]*" (nth 1 sep))
(nth 1 sep)
(if (nth 5 sep) ; is there a rhs-sign
(if (= (char-after (nth 5 sep)) ?\:) ;is it a typdef
"::" (nth 1 sep))
"")))))
(while contour-line ; explore the contour points
(setq line-start (pop contour-line))
(goto-char line-start)
(setq line-end (line-end-position))
(setq end-visible ; visible until the column of the
(if contour-line ; next contour point
(save-excursion
(move-to-column
(haskell-indent-point-to-col (car contour-line)))
(point))
line-end))
(unless (or (haskell-indent-open-structure start line-start)
(haskell-indent-in-comment start line-start))
(setq haskell-indent-info
(haskell-indent-line-indentation line-start line-end
end-visible curr-line-type
haskell-indent-info)))))
haskell-indent-info))
(defun haskell-indent-find-matching-start (regexp limit &optional pred start)
(let ((open (haskell-indent-open-structure limit (point))))
(if open (setq limit (1+ open))))
(unless start (setq start (point)))
(when (re-search-backward regexp limit t)
(let ((nestedcase (match-end 1))
(outer (or (haskell-indent-in-string limit (point))
(haskell-indent-in-comment limit (point))
(haskell-indent-open-structure limit (point))
(if (and pred (funcall pred start)) (point)))))
(cond
(outer
(goto-char outer)
(haskell-indent-find-matching-start regexp limit pred start))
(nestedcase
;; Nested case.
(and (haskell-indent-find-matching-start regexp limit pred)
(haskell-indent-find-matching-start regexp limit pred start)))
(t (point))))))
(defun haskell-indent-filter-let-no-in (start)
"Return non-nil if point is in front of a `let' that has no `in'.
START is the position of the presumed `in'."
;; We're looking at either `in' or `let'.
(when (looking-at "let")
(ignore-errors
(save-excursion
(forward-word 1)
(forward-comment (point-max))
(if (looking-at "{")
(progn
(forward-sexp 1)
(forward-comment (point-max))
(< (point) start))
;; Use the layout rule to see whether this let is already closed
;; without an `in'.
(let ((col (current-column)))
(while (progn (forward-line 1) (haskell-indent-back-to-indentation)
(< (point) start))
(when (< (current-column) col)
(setq col nil)
(goto-char start)))
(null col)))))))
(defun haskell-indent-comment (open start)
"Compute indent info for comments and text inside comments.
OPEN is the start position of the comment in which point is."
;; Ideally we'd want to guess whether it's commented out code or
;; whether it's text. Instead, we'll assume it's text.
(save-excursion
(if (= open (point))
;; We're actually just in front of a comment: align with following
;; code or with comment on previous line.
(let ((prev-line-info
(cond
((eq (char-after) ?\{) nil) ;Align as if it were code.
((and (forward-comment -1)
(> (line-beginning-position 3) open))
;; We're after another comment and there's no empty line
;; between us.
(list (list (haskell-indent-point-to-col (point)))))
(t nil)))) ;Else align as if it were code
;; Align with following code.
(forward-comment (point-max))
;; There are several possible indentation points for this code-line,
;; but the only valid indentation point for the comment is the one
;; that the user will select for the code-line. Obviously we can't
;; know that, so we just assume that the code-line is already at its
;; proper place.
;; Strictly speaking "assume it's at its proper place" would mean
;; we'd just use (current-column), but since this is using info from
;; lines further down and it's common to reindent line-by-line,
;; we'll align not with the current indentation, but with the
;; one that auto-indentation "will" select.
(append
prev-line-info
(let ((indent-info (save-excursion
(haskell-indent-indentation-info start)))
(col (current-column)))
;; Sort the indent-info so that the current indentation comes
;; out first.
(setq indent-info
(sort indent-info
(lambda (x y)
(<= (abs (- col (car x))) (abs (- col (car y)))))))