;; verilog-mode.el --- major mode for editing verilog source in Emacs
;; Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004,
-;; 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
+;; 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
;; Author: Michael McNamara (mac@verilog.com)
;; http://www.verilog.com
;;
;; AUTO features, signal, modsig; by: Wilson Snyder
;; (wsnyder@wsnyder.org)
-;; http://www.veripool.com
+;; http://www.veripool.org
;; Keywords: languages
;; Yoni Rabkin <yoni@rabkins.net> contacted the maintainer of this
;; Verilog is a rapidly evolving language, and hence this mode is
;; under continuous development. Hence this is beta code, and likely
-;; has bugs. Please report any and all bugs to me at mac@verilog.com.
+;; has bugs. Please report any issues to the issue tracker at
+;; http://www.veripool.org/verilog-mode
;; Please use verilog-submit-bug-report to submit a report; type C-c
;; C-b to invoke this and as a result I will have a much easier time
;; of reproducing the bug you find, and hence fixing it.
;; .emacs, or in your site's site-load.el
; (autoload 'verilog-mode "verilog-mode" "Verilog mode" t )
-; (setq auto-mode-alist (cons '("\\.v\\'" . verilog-mode) auto-mode-alist))
-; (setq auto-mode-alist (cons '("\\.dv\\'" . verilog-mode) auto-mode-alist))
+; (add-to-list 'auto-mode-alist '("\\.[ds]?vh?\\'" . verilog-mode))
;; If you want to customize Verilog mode to fit your needs better,
;; you may add these lines (the values of the variables presented
; verilog-auto-endcomments t
; verilog-minimum-comment-distance 40
; verilog-indent-begin-after-if t
-; verilog-auto-lineup '(all)
+; verilog-auto-lineup 'declarations
; verilog-highlight-p1800-keywords nil
; verilog-linter "my_lint_shell_command"
; )
;;; History:
;;
-;; See commit history at http://www.veripool.com/verilog-mode.html
+;; See commit history at http://www.veripool.org/verilog-mode.html
;; (This section is required to appease checkdoc.)
;;; Code:
;; This variable will always hold the version number of the mode
-(defconst verilog-mode-version "429"
+(defconst verilog-mode-version "565"
"Version of this Verilog mode.")
-(defconst verilog-mode-release-date "2008-06-23-GNU"
+(defconst verilog-mode-release-date "2010-03-01-GNU"
"Release date of this Verilog mode.")
(defconst verilog-mode-release-emacs t
"If non-nil, this version of Verilog mode was released with Emacs itself.")
;; Insure we have certain packages, and deal with it if we don't
;; Be sure to note which Emacs flavor and version added each feature.
(eval-when-compile
- ;; The below were disabled when GNU Emacs 22 was released;
- ;; perhaps some still need to be there to support Emacs 21.
+ ;; Provide stuff if we are XEmacs
(when (featurep 'xemacs)
(condition-case nil
(require 'easymenu)
;; We have an intermediate custom-library, hack around it!
(defmacro customize-group (var &rest args)
`(customize ,var))
- )))
+ ))
+ ;; OK, do this stuff if we are NOT XEmacs:
+ (unless (featurep 'xemacs)
+ (unless (fboundp 'region-active-p)
+ (defmacro region-active-p ()
+ `(and transient-mark-mode mark-active))))
+ )
;; Provide a regular expression optimization routine, using regexp-opt
;; if provided by the user's elisp libraries
(concat "\\<" (verilog-regexp-opt a t) "\\>")))
(defun verilog-easy-menu-filter (menu)
- "Filter a easy-menu-define to support new features."
+ "Filter `easy-menu-define' MENU to support new features."
(cond ((not (featurep 'xemacs))
menu) ;; GNU Emacs - passthru
;; Xemacs doesn't support :help. Strip it.
(defun verilog-booleanp (value)
"Return t if VALUE is boolean.
- This implements GNU Emacs 22.1's `booleanp' function in earlier Emacs.
- This function may be removed when Emacs 21 is no longer supported."
+This implements GNU Emacs 22.1's `booleanp' function in earlier Emacs.
+This function may be removed when Emacs 21 is no longer supported."
(or (equal value t) (equal value nil)))
+(defun verilog-insert-last-command-event ()
+ "Insert the `last-command-event'."
+ (insert (if (featurep 'xemacs)
+ ;; XEmacs 21.5 doesn't like last-command-event
+ last-command-char
+ ;; And GNU Emacs 22 has obsoleted last-command-char
+ last-command-event)))
+
(defalias 'verilog-syntax-ppss
(if (fboundp 'syntax-ppss) 'syntax-ppss
(lambda (&optional pos) (parse-partial-sexp (point-min) (or pos (point))))))
;; Note we don't use :safe, as that would break on Emacsen before 22.0.
(put 'verilog-highlight-translate-off 'safe-local-variable 'verilog-booleanp)
+(defcustom verilog-auto-lineup 'declarations
+ "*Type of statements to lineup across multiple lines.
+If 'all' is selected, then all line ups described below are done.
+
+If 'declaration', then just declarations are lined up with any
+preceding declarations, taking into account widths and the like,
+so or example the code:
+ reg [31:0] a;
+ reg b;
+would become
+ reg [31:0] a;
+ reg b;
+
+If 'assignment', then assignments are lined up with any preceding
+assignments, so for example the code
+ a_long_variable <= b + c;
+ d = e + f;
+would become
+ a_long_variable <= b + c;
+ d = e + f;
+
+In order to speed up editing, large blocks of statements are lined up
+only when a \\[verilog-pretty-expr] is typed; and large blocks of declarations
+are lineup only when \\[verilog-pretty-declarations] is typed."
+
+ :type '(radio (const :tag "Line up Assignments and Declarations" all)
+ (const :tag "Line up Assignment statements" assignments )
+ (const :tag "Line up Declarations" declarations)
+ (function :tag "Other"))
+ :group 'verilog-mode-indent )
+
(defcustom verilog-indent-level 3
"*Indentation of Verilog statements with respect to containing block."
:group 'verilog-mode-indent
:type 'integer)
(put 'verilog-minimum-comment-distance 'safe-local-variable 'integerp)
-(defcustom verilog-auto-lineup '(declaration)
- "*Algorithm for lining up statements on multiple lines.
-
-If this list contains the symbol 'all', then all line ups described below
-are done.
-
-If this list contains the symbol 'declaration', then declarations are lined up
-with any preceding declarations, taking into account widths and the like, so
-for example the code:
- reg [31:0] a;
- reg b;
-would become
- reg [31:0] a;
- reg b;
-
-If this list contains the symbol 'assignment', then assignments are lined up
-with any preceding assignments, so for example the code
- a_long_variable = b + c;
- d = e + f;
-would become
- a_long_variable = b + c;
- d = e + f;"
-
-;; The following is not implemented:
-;If this list contains the symbol 'case', then case items are lined up
-;with any preceding case items, so for example the code
-; case (a) begin
-; a_long_state : a = 3;
-; b: a = 4;
-; endcase
-;would become
-; case (a) begin
-; a_long_state : a = 3;
-; b : a = 4;
-; endcase
-;
-
- :group 'verilog-mode-indent
- :type 'list)
-(put 'verilog-auto-lineup 'safe-local-variable 'listp)
-
(defcustom verilog-highlight-p1800-keywords nil
"*True means highlight words newly reserved by IEEE-1800.
These will appear in `verilog-font-lock-p1800-face' in order to gently
(defcustom verilog-highlight-grouping-keywords nil
"*True means highlight grouping keywords 'begin' and 'end' more dramatically.
-If false, these words are in the font-lock-type-face; if True then they are in
-`verilog-font-lock-ams-face'. Some find that special highlighting on these
+If false, these words are in the `font-lock-type-face'; if True then they are in
+`verilog-font-lock-ams-face'. Some find that special highlighting on these
grouping constructs allow the structure of the code to be understood at a glance."
:group 'verilog-mode-indent
:type 'boolean)
:type 'boolean)
(put 'verilog-auto-endcomments 'safe-local-variable 'verilog-booleanp)
+(defcustom verilog-auto-ignore-concat nil
+ "*True means ignore signals in {...} concatenations for AUTOWIRE etc.
+This will exclude signals referenced as pin connections in {...}
+from AUTOWIRE, AUTOOUTPUT and friends. This flag should be set
+for backward compatibility only and not set in new designs; it
+may be removed in future versions."
+ :group 'verilog-mode-actions
+ :type 'boolean)
+(put 'verilog-auto-ignore-concat 'safe-local-variable 'verilog-booleanp)
+
(defcustom verilog-auto-read-includes nil
"*True means to automatically read includes before AUTOs.
This will do a `verilog-read-defines' and `verilog-read-includes' before
(defvar verilog-auto-last-file-locals nil
"Text from file-local-variables during last evaluation.")
-(defvar verilog-error-regexp-add-didit nil)
-(defvar verilog-error-regexp nil)
-(setq verilog-error-regexp-add-didit nil
- verilog-error-regexp
+;;; Compile support
+(require 'compile)
+(defvar verilog-error-regexp-added nil)
+; List of regexps for Verilog compilers, like verilint. See compilation-error-regexp-alist
+; for the formatting.
+; Here is the version for Emacs 22:
+(defvar verilog-error-regexp-emacs-alist
'(
- ; SureLint
-;; ("[^\n]*\\[\\([^:]+\\):\\([0-9]+\\)\\]" 1 2)
- ; Most SureFire tools
- ("\\(WARNING\\|ERROR\\|INFO\\)[^:]*: \\([^,]+\\), \\(line \\|\\)\\([0-9]+\\):" 2 4 )
+ (verilog-xl-1
+ "\\(Error\\|Warning\\)!.*\n?.*\"\\([^\"]+\\)\", \\([0-9]+\\)" 2 3)
+ (verilog-xl-2
+ "([WE][0-9A-Z]+)[ \t]+\\([^ \t\n,]+\\)[, \t]+\\(line[ \t]+\\)?\\([0-9]+\\):.*$" 1 3)
+ (verilog-IES
+ ".*\\*[WE],[0-9A-Z]+ (\\([^ \t,]+\\),\\([0-9]+\\)" 1 2)
+ (verilog-surefire-1
+ "[^\n]*\\[\\([^:]+\\):\\([0-9]+\\)\\]" 1 2)
+ (verilog-surefire-2
+ "\\(WARNING\\|ERROR\\|INFO\\)[^:]*: \\([^,]+\\),\\s-+\\(line \\)?\\([0-9]+\\):" 2 4 )
+ (verilog-verbose
+ "\
+\\([a-zA-Z]?:?[^:( \t\n]+\\)[:(][ \t]*\\([0-9]+\\)\\([) \t]\\|\
+:\\([^0-9\n]\\|\\([0-9]+:\\)\\)\\)" 1 2 5)
+ (verilog-xsim
+ "\\(Error\\|Warning\\).*in file (\\([^ \t]+\\) at line *\\([0-9]+\\))" 2 3)
+ (verilog-vcs-1
+ "\\(Error\\|Warning\\):[^(]*(\\([^ \t]+\\) line *\\([0-9]+\\))" 2 3)
+ (verilog-vcs-2
+ "Warning:.*(port.*(\\([^ \t]+\\) line \\([0-9]+\\))" 1 2)
+ (verilog-vcs-3
+ "\\(Error\\|Warning\\):[\n.]*\\([^ \t]+\\) *\\([0-9]+\\):" 2 3)
+ (verilog-vcs-4
+ "syntax error:.*\n\\([^ \t]+\\) *\\([0-9]+\\):" 1 2)
+ (verilog-verilator
+ "%?\\(Error\\|Warning\\)\\(-[^:]+\\|\\):[\n ]*\\([^ \t:]+\\):\\([0-9]+\\):" 3 4)
+ (verilog-leda
+ "In file \\([^ \t]+\\)[ \t]+line[ \t]+\\([0-9]+\\):
+.*
+.*
+.*
+\\(Warning\\|Error\\|Failure\\)" 1 2)
+ ))
+;; And the version for XEmacs:
+(defvar verilog-error-regexp-xemacs-alist
+ '(verilog
+ ("[^\n]*\\[\\([^:]+\\):\\([0-9]+\\)\\]" 1 2)
+ ("\\(WARNING\\|ERROR\\|INFO\\)[^:]*: \\([^,]+\\),\\s-+\\(line \\)?\\([0-9]+\\):" 2 4 )
("\
\\([a-zA-Z]?:?[^:( \t\n]+\\)[:(][ \t]*\\([0-9]+\\)\\([) \t]\\|\
:\\([^0-9\n]\\|\\([0-9]+:\\)\\)\\)" 1 2 5)
- ; xsim
- ; Error! in file /homes/mac/Axis/Xsim/test.v at line 13 [OBJ_NOT_DECLARED]
+; xsim
+; Error! in file /homes/mac/Axis/Xsim/test.v at line 13 [OBJ_NOT_DECLARED]
("\\(Error\\|Warning\\).*in file (\\([^ \t]+\\) at line *\\([0-9]+\\))" 2 3)
- ; vcs
+; vcs
("\\(Error\\|Warning\\):[^(]*(\\([^ \t]+\\) line *\\([0-9]+\\))" 2 3)
("Warning:.*(port.*(\\([^ \t]+\\) line \\([0-9]+\\))" 1 2)
("\\(Error\\|Warning\\):[\n.]*\\([^ \t]+\\) *\\([0-9]+\\):" 2 3)
("syntax error:.*\n\\([^ \t]+\\) *\\([0-9]+\\):" 1 2)
- ; Verilator
- ("%?\\(Error\\|Warning\\)\\(-[^:]+\\|\\):[\n ]*\\([^ \t:]+\\):\\([0-9]+\\):" 3 4)
+; Verilator
("%?\\(Error\\|Warning\\)\\(-[^:]+\\|\\):[\n ]*\\([^ \t:]+\\):\\([0-9]+\\):" 3 4)
- ; vxl
+; verilog-xl
("\\(Error\\|Warning\\)!.*\n?.*\"\\([^\"]+\\)\", \\([0-9]+\\)" 2 3)
("([WE][0-9A-Z]+)[ \t]+\\([^ \t\n,]+\\)[, \t]+\\([0-9]+\\):.*$" 1 2) ; vxl
("([WE][0-9A-Z]+)[ \t]+\\([^ \t\n,]+\\)[, \t]+line[ \t]+\\([0-9]+\\):.*$" 1 2)
- ; nc-verilog
+; nc-verilog
(".*\\*[WE],[0-9A-Z]+ (\\([^ \t,]+\\),\\([0-9]+\\)|" 1 2)
- ; Leda
+; Leda
("In file \\([^ \t]+\\)[ \t]+line[ \t]+\\([0-9]+\\):\n[^\n]*\n[^\n]*\n\\[\\(Warning\\|Error\\|Failure\\)\\][^\n]*" 1 2)
)
-; "*List of regexps for Verilog compilers, like verilint. See compilation-error-regexp-alist for the formatting."
-)
+ )
(defvar verilog-error-font-lock-keywords
'(
:type '(repeat directory))
(put 'verilog-library-files 'safe-local-variable 'listp)
-(defcustom verilog-library-extensions '(".v")
+(defcustom verilog-library-extensions '(".v" ".sv")
"*List of extensions to use when looking for files for /*AUTOINST*/.
See also `verilog-library-flags', `verilog-library-directories'."
:type '(repeat string)
:type 'string)
(put 'verilog-assignment-delay 'safe-local-variable 'stringp)
+(defcustom verilog-auto-arg-sort nil
+ "*If set, AUTOARG signal names will be sorted, not in delaration order.
+Declaration order is advantageous with order based instantiations
+and is the default for backward compatibility. Sorted order
+reduces changes when declarations are moved around in a file, and
+it's bad practice to rely on order based instantiations anyhow."
+ :group 'verilog-mode-auto
+ :type 'boolean)
+(put 'verilog-auto-arg-sort 'safe-local-variable 'verilog-booleanp)
+
(defcustom verilog-auto-inst-param-value nil
"*If set, AUTOINST will replace parameters with the parameter value.
If nil, leave parameters as symbolic names.
.i (i[9:0]));"
:group 'verilog-mode-auto
:type 'boolean)
-(put 'verilog-auto-inst-vector 'safe-local-variable 'verilog-auto-inst-param-value)
+(put 'verilog-auto-inst-param-value 'safe-local-variable 'verilog-booleanp)
(defcustom verilog-auto-inst-vector t
"*If true, when creating default ports with AUTOINST, use bus subscripts.
:help "Help on AUTOARG - declaring module port list"]
["AUTOASCIIENUM" (describe-function 'verilog-auto-ascii-enum)
:help "Help on AUTOASCIIENUM - creating ASCII for enumerations"]
+ ["AUTOINOUTCOMP" (describe-function 'verilog-auto-inout-comp)
+ :help "Help on AUTOINOUTCOMP - copying complemented i/o from another file"]
["AUTOINOUTMODULE" (describe-function 'verilog-auto-inout-module)
:help "Help on AUTOINOUTMODULE - copying i/o from another file"]
+ ["AUTOINSERTLISP" (describe-function 'verilog-auto-insert-lisp)
+ :help "Help on AUTOINSERTLISP - insert text from a lisp function"]
["AUTOINOUT" (describe-function 'verilog-auto-inout)
:help "Help on AUTOINOUT - adding inouts from cells"]
["AUTOINPUT" (describe-function 'verilog-auto-input)
(defsubst verilog-re-search-forward (REGEXP BOUND NOERROR)
; checkdoc-params: (REGEXP BOUND NOERROR)
"Like `re-search-forward', but skips over match in comments or strings."
- (store-match-data '(nil nil)) ;; So match-end will return nil if no matches found
- (while (and
- (re-search-forward REGEXP BOUND NOERROR)
- (and (verilog-skip-forward-comment-or-string)
- (progn
- (store-match-data '(nil nil))
- (if BOUND
- (< (point) BOUND)
- t)))))
- (match-end 0))
+ (let ((mdata '(nil nil))) ;; So match-end will return nil if no matches found
+ (while (and
+ (re-search-forward REGEXP BOUND NOERROR)
+ (setq mdata (match-data))
+ (and (verilog-skip-forward-comment-or-string)
+ (progn
+ (setq mdata '(nil nil))
+ (if BOUND
+ (< (point) BOUND)
+ t)))))
+ (store-match-data mdata)
+ (match-end 0)))
(defsubst verilog-re-search-backward (REGEXP BOUND NOERROR)
; checkdoc-params: (REGEXP BOUND NOERROR)
"Like `re-search-backward', but skips over match in comments or strings."
- (store-match-data '(nil nil)) ;; So match-end will return nil if no matches found
- (while (and
- (re-search-backward REGEXP BOUND NOERROR)
- (and (verilog-skip-backward-comment-or-string)
- (progn
- (store-match-data '(nil nil))
- (if BOUND
- (> (point) BOUND)
- t)))))
- (match-end 0))
+ (let ((mdata '(nil nil))) ;; So match-end will return nil if no matches found
+ (while (and
+ (re-search-backward REGEXP BOUND NOERROR)
+ (setq mdata (match-data))
+ (and (verilog-skip-backward-comment-or-string)
+ (progn
+ (setq mdata '(nil nil))
+ (if BOUND
+ (> (point) BOUND)
+ t)))))
+ (store-match-data mdata)
+ (match-end 0)))
(defsubst verilog-re-search-forward-quick (regexp bound noerror)
"Like `verilog-re-search-forward', including use of REGEXP BOUND and NOERROR,
"\\b__FILE__\\b" (file-name-nondirectory (buffer-file-name))
t t compile-command))))
-;; Following code only gets called from compilation-mode-hook.
-(defvar compilation-error-regexp-alist)
+(if (featurep 'xemacs)
+ ;; Following code only gets called from compilation-mode-hook on XEmacs to add error handling.
+ (defun verilog-error-regexp-add-xemacs ()
+ "Teach XEmacs about verilog errors.
+Called by `compilation-mode-hook'. This allows \\[next-error] to
+find the errors."
+ (interactive)
+ (if (boundp 'compilation-error-regexp-systems-alist)
+ (if (and
+ (not (equal compilation-error-regexp-systems-list 'all))
+ (not (member compilation-error-regexp-systems-list 'verilog)))
+ (push 'verilog compilation-error-regexp-systems-list)))
+ (if (boundp 'compilation-error-regexp-alist-alist)
+ (if (not (assoc 'verilog compilation-error-regexp-alist-alist))
+ (setcdr compilation-error-regexp-alist-alist
+ (cons verilog-error-regexp-xemacs-alist
+ (cdr compilation-error-regexp-alist-alist)))))
+ (if (boundp 'compilation-font-lock-keywords)
+ (progn
+ (make-local-variable 'compilation-font-lock-keywords)
+ (setq compilation-font-lock-keywords verilog-error-font-lock-keywords)
+ (font-lock-set-defaults)))
+ ;; Need to re-run compilation-error-regexp builder
+ (if (fboundp 'compilation-build-compilation-error-regexp-alist)
+ (compilation-build-compilation-error-regexp-alist))
+ ))
-(defun verilog-error-regexp-add ()
- "Add the messages to the `compilation-error-regexp-alist'.
+;; Following code only gets called from compilation-mode-hook on Emacs to add error handling.
+(defun verilog-error-regexp-add-emacs ()
+ "Tell Emacs compile that we are Verilog.
Called by `compilation-mode-hook'. This allows \\[next-error] to
find the errors."
- (if (not verilog-error-regexp-add-didit)
- (progn
- (setq verilog-error-regexp-add-didit t)
- (setq-default compilation-error-regexp-alist
- (append verilog-error-regexp
- (default-value 'compilation-error-regexp-alist)))
- ;; Could be buffer local at this point; maybe also in let; change all three
- (setq compilation-error-regexp-alist
- (default-value 'compilation-error-regexp-alist))
- (set (make-local-variable 'compilation-error-regexp-alist)
- (default-value 'compilation-error-regexp-alist)))))
-
-(add-hook 'compilation-mode-hook 'verilog-error-regexp-add)
+ (interactive)
+ (if (boundp 'compilation-error-regexp-alist-alist)
+ (progn
+ (if (not (assoc 'verilog-xl-1 compilation-error-regexp-alist-alist))
+ (mapcar
+ (lambda (item)
+ (push (car item) compilation-error-regexp-alist)
+ (push item compilation-error-regexp-alist-alist)
+ )
+ verilog-error-regexp-emacs-alist)))))
+
+(if (featurep 'xemacs) (add-hook 'compilation-mode-hook 'verilog-error-regexp-add-xemacs))
+(if (featurep 'emacs) (add-hook 'compilation-mode-hook 'verilog-error-regexp-add-emacs))
(defconst verilog-directive-re
;; "`case" "`default" "`define" "`define" "`else" "`endfor" "`endif"
;; "`time_scale" "`undef" "`while"
"\\<`\\(case\\|def\\(ault\\|ine\\(\\)?\\)\\|e\\(lse\\|nd\\(for\\|if\\|protect\\|switch\\|while\\)\\)\\|for\\(mat\\)?\\|i\\(f\\(def\\|ndef\\)?\\|nclude\\)\\|let\\|protect\\|switch\\|time\\(_scale\\|scale\\)\\|undef\\|while\\)\\>")
+(defconst verilog-directive-re-1
+ (concat "[ \t]*" verilog-directive-re))
+
(defconst verilog-directive-begin
"\\<`\\(for\\|i\\(f\\|fdef\\|fndef\\)\\|switch\\|while\\)\\>")
(defconst verilog-directive-end
"`\\(endfor\\|endif\\|endswitch\\|endwhile\\)\\>")
-(defconst verilog-directive-re-1
- (concat "[ \t]*" verilog-directive-re))
+(defconst verilog-ovm-begin-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+ "`ovm_component_utils_begin"
+ "`ovm_component_param_utils_begin"
+ "`ovm_field_utils_begin"
+ "`ovm_object_utils_begin"
+ "`ovm_object_param_utils_begin"
+ "`ovm_sequence_utils_begin"
+ "`ovm_sequencer_utils_begin"
+ ) nil )))
+
+(defconst verilog-ovm-end-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+ "`ovm_component_utils_end"
+ "`ovm_field_utils_end"
+ "`ovm_object_utils_end"
+ "`ovm_sequence_utils_end"
+ "`ovm_sequencer_utils_end"
+ ) nil )))
+
+(defconst verilog-vmm-begin-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+ "`vmm_data_member_begin"
+ "`vmm_env_member_begin"
+ "`vmm_scenario_member_begin"
+ "`vmm_subenv_member_begin"
+ "`vmm_xactor_member_begin"
+ ) nil ) ) )
+
+(defconst verilog-vmm-end-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+ "`vmm_data_member_end"
+ "`vmm_env_member_end"
+ "`vmm_scenario_member_end"
+ "`vmm_subenv_member_end"
+ "`vmm_xactor_member_end"
+ ) nil ) ) )
+
+(defconst verilog-vmm-statement-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+;; "`vmm_xactor_member_enum_array"
+ "`vmm_\\(data\\|env\\|scenario\\|subenv\\|xactor\\)_member_\\(scalar\\|string\\|enum\\|vmm_data\\|channel\\|xactor\\|subenv\\|user_defined\\)\\(_array\\)?"
+;; "`vmm_xactor_member_scalar_array"
+;; "`vmm_xactor_member_scalar"
+ ) nil )))
+
+(defconst verilog-ovm-statement-re
+ (eval-when-compile
+ (verilog-regexp-opt
+ '(
+ ;; Statements
+ "`DUT_ERROR"
+ "`MESSAGE"
+ "`dut_error"
+ "`message"
+ "`ovm_analysis_imp_decl"
+ "`ovm_blocking_get_imp_decl"
+ "`ovm_blocking_get_peek_imp_decl"
+ "`ovm_blocking_master_imp_decl"
+ "`ovm_blocking_peek_imp_decl"
+ "`ovm_blocking_put_imp_decl"
+ "`ovm_blocking_slave_imp_decl"
+ "`ovm_blocking_transport_imp_decl"
+ "`ovm_component_registry"
+ "`ovm_component_registry_param"
+ "`ovm_component_utils"
+ "`ovm_create"
+ "`ovm_create_seq"
+ "`ovm_declare_sequence_lib"
+ "`ovm_do"
+ "`ovm_do_seq"
+ "`ovm_do_seq_with"
+ "`ovm_do_with"
+ "`ovm_error"
+ "`ovm_fatal"
+ "`ovm_field_aa_int_byte"
+ "`ovm_field_aa_int_byte_unsigned"
+ "`ovm_field_aa_int_int"
+ "`ovm_field_aa_int_int_unsigned"
+ "`ovm_field_aa_int_integer"
+ "`ovm_field_aa_int_integer_unsigned"
+ "`ovm_field_aa_int_key"
+ "`ovm_field_aa_int_longint"
+ "`ovm_field_aa_int_longint_unsigned"
+ "`ovm_field_aa_int_shortint"
+ "`ovm_field_aa_int_shortint_unsigned"
+ "`ovm_field_aa_int_string"
+ "`ovm_field_aa_object_int"
+ "`ovm_field_aa_object_string"
+ "`ovm_field_aa_string_int"
+ "`ovm_field_aa_string_string"
+ "`ovm_field_array_int"
+ "`ovm_field_array_object"
+ "`ovm_field_array_string"
+ "`ovm_field_enum"
+ "`ovm_field_event"
+ "`ovm_field_int"
+ "`ovm_field_object"
+ "`ovm_field_queue_int"
+ "`ovm_field_queue_object"
+ "`ovm_field_queue_string"
+ "`ovm_field_sarray_int"
+ "`ovm_field_string"
+ "`ovm_field_utils"
+ "`ovm_file"
+ "`ovm_get_imp_decl"
+ "`ovm_get_peek_imp_decl"
+ "`ovm_info"
+ "`ovm_info1"
+ "`ovm_info2"
+ "`ovm_info3"
+ "`ovm_info4"
+ "`ovm_line"
+ "`ovm_master_imp_decl"
+ "`ovm_msg_detail"
+ "`ovm_non_blocking_transport_imp_decl"
+ "`ovm_nonblocking_get_imp_decl"
+ "`ovm_nonblocking_get_peek_imp_decl"
+ "`ovm_nonblocking_master_imp_decl"
+ "`ovm_nonblocking_peek_imp_decl"
+ "`ovm_nonblocking_put_imp_decl"
+ "`ovm_nonblocking_slave_imp_decl"
+ "`ovm_object_registry"
+ "`ovm_object_registry_param"
+ "`ovm_object_utils"
+ "`ovm_peek_imp_decl"
+ "`ovm_phase_func_decl"
+ "`ovm_phase_task_decl"
+ "`ovm_print_aa_int_object"
+ "`ovm_print_aa_string_int"
+ "`ovm_print_aa_string_object"
+ "`ovm_print_aa_string_string"
+ "`ovm_print_array_int"
+ "`ovm_print_array_object"
+ "`ovm_print_array_string"
+ "`ovm_print_object_queue"
+ "`ovm_print_queue_int"
+ "`ovm_print_string_queue"
+ "`ovm_put_imp_decl"
+ "`ovm_rand_send"
+ "`ovm_rand_send_with"
+ "`ovm_send"
+ "`ovm_sequence_utils"
+ "`ovm_slave_imp_decl"
+ "`ovm_transport_imp_decl"
+ "`ovm_update_sequence_lib"
+ "`ovm_update_sequence_lib_and_item"
+ "`ovm_warning"
+ "`static_dut_error"
+ "`static_message") nil )))
+
;;
;; Regular expressions used to calculate indent, etc.
;;
(defconst verilog-symbol-re "\\<[a-zA-Z_][a-zA-Z_0-9.]*\\>")
-(defconst verilog-case-re "\\(\\<case[xz]?\\>\\|\\<randcase\\>\\)")
;; Want to match
;; aa :
;; aa,bb :
;; a,
;; b :
+(defconst verilog-label-re (concat verilog-symbol-re "\\s-*:\\s-*"))
(defconst verilog-no-indent-begin-re
"\\<\\(if\\|else\\|while\\|for\\|repeat\\|always\\|always_comb\\|always_ff\\|always_latch\\)\\>")
(concat
"\\(\\<else\\>\\)\\|" ; 1
"\\(\\<if\\>\\)\\|" ; 2
- "\\(\\<end\\>\\)\\|" ; 3
+ "\\(\\<assert\\>\\)\\|" ; 3
+ "\\(\\<end\\>\\)\\|" ; 3.1
"\\(\\<endcase\\>\\)\\|" ; 4
"\\(\\<endfunction\\>\\)\\|" ; 5
"\\(\\<endtask\\>\\)\\|" ; 6
"\\(\\<endgenerate\\>\\)\\|" ; 9
"\\(\\<join\\(_any\\|_none\\)?\\>\\)\\|" ; 10
"\\(\\<endclass\\>\\)\\|" ; 11
- "\\(\\<endgroup\\>\\)" ; 12
+ "\\(\\<endgroup\\>\\)\\|" ; 12
+ ;; VMM
+ "\\(\\<`vmm_data_member_end\\>\\)\\|"
+ "\\(\\<`vmm_env_member_end\\>\\)\\|"
+ "\\(\\<`vmm_scenario_member_end\\>\\)\\|"
+ "\\(\\<`vmm_subenv_member_end\\>\\)\\|"
+ "\\(\\<`vmm_xactor_member_end\\>\\)\\|"
+ ;; OVM
+ "\\(\\<`ovm_component_utils_end\\>\\)\\|"
+ "\\(\\<`ovm_field_utils_end\\>\\)\\|"
+ "\\(\\<`ovm_object_utils_end\\>\\)\\|"
+ "\\(\\<`ovm_sequence_utils_end\\>\\)\\|"
+ "\\(\\<`ovm_sequencer_utils_end\\>\\)"
+
))
(defconst verilog-auto-end-comment-lines-re
"endprogram"
"endsequence"
"endclocking"
+ ;; OVM
+ "`ovm_component_utils_end"
+ "`ovm_field_utils_end"
+ "`ovm_object_utils_end"
+ "`ovm_sequence_utils_end"
+ "`ovm_sequencer_utils_end"
+ ;; VMM
+ "`vmm_data_member_end"
+ "`vmm_env_member_end"
+ "`vmm_scenario_member_end"
+ "`vmm_subenv_member_end"
+ "`vmm_xactor_member_end"
))))
(defconst verilog-endcomment-reason-re
;; Parenthesis indicate type of keyword found
(concat
- "\\(\\<fork\\>\\)\\|"
- "\\(\\<begin\\>\\)\\|"
+ "\\(\\<begin\\>\\)\\|" ; 1
+ "\\(\\<else\\>\\)\\|" ; 2
+ "\\(\\<end\\>\\s-+\\<else\\>\\)\\|" ; 3
+ "\\(\\<always_comb\\>\\(\[ \t\]*@\\)?\\)\\|" ; 4
+ "\\(\\<always_ff\\>\\(\[ \t\]*@\\)?\\)\\|" ; 5
+ "\\(\\<always_latch\\>\\(\[ \t\]*@\\)?\\)\\|" ; 6
+ "\\(\\<fork\\>\\)\\|" ; 7
+ "\\(\\<always\\>\\(\[ \t\]*@\\)?\\)\\|"
"\\(\\<if\\>\\)\\|"
"\\(\\<clocking\\>\\)\\|"
- "\\(\\<else\\>\\)\\|"
- "\\(\\<end\\>.*\\<else\\>\\)\\|"
"\\(\\<task\\>\\)\\|"
"\\(\\<function\\>\\)\\|"
"\\(\\<initial\\>\\)\\|"
"\\(\\<interface\\>\\)\\|"
"\\(\\<package\\>\\)\\|"
"\\(\\<final\\>\\)\\|"
- "\\(\\<always\\>\\(\[ \t\]*@\\)?\\)\\|"
- "\\(\\<always_comb\\>\\(\[ \t\]*@\\)?\\)\\|"
- "\\(\\<always_ff\\>\\(\[ \t\]*@\\)?\\)\\|"
- "\\(\\<always_latch\\>\\(\[ \t\]*@\\)?\\)\\|"
"\\(@\\)\\|"
"\\(\\<while\\>\\)\\|"
"\\(\\<for\\(ever\\|each\\)?\\>\\)\\|"
"specify"
"table"
"task"
+ ;;; OVM
+ "`ovm_component_utils_begin"
+ "`ovm_component_param_utils_begin"
+ "`ovm_field_utils_begin"
+ "`ovm_object_utils_begin"
+ "`ovm_object_param_utils_begin"
+ "`ovm_sequence_utils_begin"
+ "`ovm_sequencer_utils_begin"
+ ;; VMM
+ "`vmm_data_member_begin"
+ "`vmm_env_member_begin"
+ "`vmm_scenario_member_begin"
+ "`vmm_subenv_member_begin"
+ "`vmm_xactor_member_begin"
))))
;; These are the same words, in a specific order in the regular
;; expression so that matching will work nicely for
;; verilog-forward-sexp and verilog-calc-indent
-
(defconst verilog-beg-block-re-ordered
( concat "\\(\\<begin\\>\\)" ;1
"\\|\\(\\<randcase\\>\\|\\(\\<unique\\s-+\\|priority\\s-+\\)?case[xz]?\\>\\)" ; 2,3
"\\|\\(\\<table\\>\\)" ;7
"\\|\\(\\<specify\\>\\)" ;8
"\\|\\(\\<function\\>\\)" ;9
- "\\|\\(\\<task\\>\\)" ;10
- "\\|\\(\\(\\(\\<virtual\\>\\s-+\\)\\|\\(\\<protected\\>\\s-+\\)\\)*\\<task\\>\\)" ;11
- "\\|\\(\\<generate\\>\\)" ;15
- "\\|\\(\\<covergroup\\>\\)" ;16
- "\\|\\(\\<property\\>\\)" ;17
- "\\|\\(\\<\\(rand\\)?sequence\\>\\)" ;18
- "\\|\\(\\<clocking\\>\\)" ;19
+ "\\|\\(\\(\\(\\<virtual\\>\\s-+\\)\\|\\(\\<protected\\>\\s-+\\)\\)*\\<function\\>\\)" ;10
+ "\\|\\(\\<task\\>\\)" ;14
+ "\\|\\(\\(\\(\\<virtual\\>\\s-+\\)\\|\\(\\<protected\\>\\s-+\\)\\)*\\<task\\>\\)" ;15
+ "\\|\\(\\<generate\\>\\)" ;18
+ "\\|\\(\\<covergroup\\>\\)" ;16 20
+ "\\|\\(\\(\\(\\<cover\\>\\s-+\\)\\|\\(\\<assert\\>\\s-+\\)\\)*\\<property\\>\\)" ;17 21
+ "\\|\\(\\<\\(rand\\)?sequence\\>\\)" ;21 25
+ "\\|\\(\\<clocking\\>\\)" ;22 27
+ "\\|\\(\\<`ovm_[a-z_]+_begin\\>\\)" ;28
+ "\\|\\(\\<`vmm_[a-z_]+_member_begin\\>\\)"
+ ;;
+
))
(defconst verilog-end-block-ordered-rry
"endfunction"
"endgenerate"
"endmodule"
- "endprimative"
+ "endprimitive"
"endinterface"
"endpackage"
"endspecify"
(defconst verilog-behavioral-block-beg-re
(eval-when-compile (verilog-regexp-words `("initial" "final" "always" "always_comb" "always_latch" "always_ff"
"function" "task"))))
-
+(defconst verilog-coverpoint-re "\\w+\\s*:\\s*\\(coverpoint\\|cross\\constraint\\)" )
(defconst verilog-indent-re
(eval-when-compile
(verilog-regexp-words
"`switch" "`endswitch"
"`timescale"
"`time_scale"
+ ;; OVM Begin tokens
+ "`ovm_component_utils_begin"
+ "`ovm_component_param_utils_begin"
+ "`ovm_field_utils_begin"
+ "`ovm_object_utils_begin"
+ "`ovm_object_param_utils_begin"
+ "`ovm_sequence_utils_begin"
+ "`ovm_sequencer_utils_begin"
+ ;; OVM End tokens
+ "`ovm_component_utils_end"
+ "`ovm_field_utils_end"
+ "`ovm_object_utils_end"
+ "`ovm_sequence_utils_end"
+ "`ovm_sequencer_utils_end"
+ ;; VMM Begin tokens
+ "`vmm_data_member_begin"
+ "`vmm_env_member_begin"
+ "`vmm_scenario_member_begin"
+ "`vmm_subenv_member_begin"
+ "`vmm_xactor_member_begin"
+ ;; VMM End tokens
+ "`vmm_data_member_end"
+ "`vmm_env_member_end"
+ "`vmm_scenario_member_end"
+ "`vmm_subenv_member_end"
+ "`vmm_xactor_member_end"
))))
+(defconst verilog-defun-level-not-generate-re
+ (eval-when-compile
+ (verilog-regexp-words
+ `( "module" "macromodule" "primitive" "class" "program"
+ "interface" "package" "config"))))
+
(defconst verilog-defun-level-re
(eval-when-compile
(verilog-regexp-words
- `(
- "module" "macromodule" "primitive" "class" "program" "initial" "final" "always" "always_comb"
- "always_ff" "always_latch" "endtask" "endfunction" "interface" "package"
- "config"))))
+ (append
+ `( "module" "macromodule" "primitive" "class" "program"
+ "interface" "package" "config")
+ `( "initial" "final" "always" "always_comb" "always_ff"
+ "always_latch" "endtask" "endfunction" )))))
-(defconst verilog-defun-level-not-generate-re
+(defconst verilog-defun-level-generate-only-re
(eval-when-compile
(verilog-regexp-words
- `(
- "module" "macromodule" "primitive" "class" "program" "interface" "package" "config"))))
+ `( "initial" "final" "always" "always_comb" "always_ff"
+ "always_latch" "endtask" "endfunction" ))))
(defconst verilog-cpp-level-re
(eval-when-compile
`(
"endmodule" "endprimitive" "endinterface" "endpackage" "endprogram" "endclass"
))))
-(defconst verilog-disable-fork-re "disable\\s-+fork")
+(defconst verilog-disable-fork-re "disable\\s-+fork\\>")
+(defconst verilog-fork-wait-re "fork\\s-+wait\\>")
(defconst verilog-extended-case-re "\\(unique\\s-+\\|priority\\s-+\\)?case[xz]?")
(defconst verilog-extended-complete-re
(concat "\\(\\<extern\\s-+\\|\\<virtual\\s-+\\|\\<protected\\s-+\\)*\\(\\<function\\>\\|\\<task\\>\\)"
"\\|\\(\\<typedef\\>\\s-+\\)*\\(\\<struct\\>\\|\\<union\\>\\|\\<class\\>\\)"
+ "\\|\\(\\<import\\>\\s-+\\)?\"DPI-C\"\\s-+\\(function\\>\\|task\\>\\)"
"\\|" verilog-extended-case-re ))
(defconst verilog-basic-complete-re
(eval-when-compile
`(
"always" "assign" "always_latch" "always_ff" "always_comb" "constraint"
"import" "initial" "final" "module" "macromodule" "repeat" "randcase" "while"
- "if" "for" "forever" "foreach" "else" "parameter" "do"
+ "if" "for" "forever" "foreach" "else" "parameter" "do" "localparam" "assert"
))))
(defconst verilog-complete-reg
(concat
verilog-end-block-re "\\)"))
(defconst verilog-endcase-re
- (concat verilog-case-re "\\|"
+ (concat verilog-extended-case-re "\\|"
"\\(endcase\\)\\|"
verilog-defun-re
))
"unique" "unsigned" "use" "uwire" "var" "vectored" "virtual" "void"
"wait" "wait_order" "wand" "weak0" "weak1" "while" "wildcard"
"wire" "with" "within" "wor" "xnor" "xor"
+ ;; 1800-2009
+ "accept_on" "checker" "endchecker" "eventually" "global" "implies"
+ "let" "nexttime" "reject_on" "restrict" "s_always" "s_eventually"
+ "s_nexttime" "s_until" "s_until_with" "strong" "sync_accept_on"
+ "sync_reject_on" "unique0" "until" "until_with" "untyped" "weak"
)
"List of Verilog keywords.")
"and" "bit" "buf" "bufif0" "bufif1" "cmos" "defparam"
"event" "genvar" "inout" "input" "integer" "localparam"
"logic" "mailbox" "nand" "nmos" "not" "notif0" "notif1" "or"
- "output" "parameter" "pmos" "pull0" "pull1" "pullup"
+ "output" "parameter" "pmos" "pull0" "pull1" "pulldown" "pullup"
"rcmos" "real" "realtime" "reg" "rnmos" "rpmos" "rtran"
"rtranif0" "rtranif1" "semaphore" "signed" "struct" "supply"
"supply0" "supply1" "time" "tran" "tranif0" "tranif1"
'("surefire" "synopsys" "rtl_synthesis" "verilint" "leda" "0in") nil
)))
- (verilog-p1800-keywords
+ (verilog-1800-2005-keywords
(eval-when-compile
(verilog-regexp-opt
'("alias" "assert" "assume" "automatic" "before" "bind"
"wait_order" "weak0" "weak1" "wildcard" "with" "within"
) nil )))
+ (verilog-1800-2009-keywords
+ (eval-when-compile
+ (verilog-regexp-opt
+ '("accept_on" "checker" "endchecker" "eventually" "global"
+ "implies" "let" "nexttime" "reject_on" "restrict" "s_always"
+ "s_eventually" "s_nexttime" "s_until" "s_until_with" "strong"
+ "sync_accept_on" "sync_reject_on" "unique0" "until"
+ "until_with" "untyped" "weak" ) nil )))
+
(verilog-ams-keywords
(eval-when-compile
(verilog-regexp-opt
'font-lock-type-face))
(cons (concat "\\<\\(" verilog-type-font-keywords "\\)\\>")
'font-lock-type-face)
- ;; Fontify IEEE-P1800 keywords appropriately
+ ;; Fontify IEEE-1800-2005 keywords appropriately
+ (if verilog-highlight-p1800-keywords
+ (cons (concat "\\<\\(" verilog-1800-2005-keywords "\\)\\>")
+ 'verilog-font-lock-p1800-face)
+ (cons (concat "\\<\\(" verilog-1800-2005-keywords "\\)\\>")
+ 'font-lock-type-face))
+ ;; Fontify IEEE-1800-2009 keywords appropriately
(if verilog-highlight-p1800-keywords
- (cons (concat "\\<\\(" verilog-p1800-keywords "\\)\\>")
+ (cons (concat "\\<\\(" verilog-1800-2009-keywords "\\)\\>")
'verilog-font-lock-p1800-face)
- (cons (concat "\\<\\(" verilog-p1800-keywords "\\)\\>")
+ (cons (concat "\\<\\(" verilog-1800-2009-keywords "\\)\\>")
'font-lock-type-face))
;; Fontify Verilog-AMS keywords
(cons (concat "\\<\\(" verilog-ams-keywords "\\)\\>")
(setq md 3) ;; ender is third item in regexp
)
((match-end 4)
- ;; might be "disable fork"
- (if (or
- (looking-at verilog-disable-fork-re)
- (and (looking-at "fork")
- (progn
- (forward-word -1)
- (looking-at verilog-disable-fork-re))))
- (progn
- (goto-char (match-end 0))
- (forward-word)
- (setq reg nil))
- (progn
- ;; Search forward for matching join
- (setq reg "\\(\\<fork\\>\\)\\|\\(\\<join\\(_any\\|_none\\)?\\>\\)" ))))
+ ;; might be "disable fork" or "fork wait"
+ (let
+ (here)
+ (if (looking-at verilog-fork-wait-re)
+ (progn ;; it is a fork wait; ignore it
+ (goto-char (match-end 0))
+ (setq reg nil))
+ (if (or
+ (looking-at verilog-disable-fork-re)
+ (and (looking-at "fork")
+ (progn
+ (setq here (point)) ;; sometimes a fork is just a fork
+ (forward-word -1)
+ (looking-at verilog-disable-fork-re))))
+ (progn ;; it is a disable fork; ignore it
+ (goto-char (match-end 0))
+ (forward-word 1)
+ (setq reg nil))
+ (progn ;; it is a nice simple fork
+ (goto-char here) ;; return from looking for "disable fork"
+ ;; Search forward for matching join
+ (setq reg "\\(\\<fork\\>\\)\\|\\(\\<join\\(_any\\|_none\\)?\\>\\)" ))))))
((match-end 6)
;; Search forward for matching endclass
(setq reg "\\(\\<class\\>\\)\\|\\(\\<endclass\\>\\)" ))
-
+
((match-end 7)
;; Search forward for matching endtable
(setq reg "\\<endtable\\>" )
(setq reg "\\<endfunction\\>" )
(setq nest 'no))
((match-end 10)
+ ;; Search forward for matching endfunction
+ (setq reg "\\<endfunction\\>" )
+ (setq nest 'no))
+ ((match-end 14)
;; Search forward for matching endtask
(setq reg "\\<endtask\\>" )
(setq nest 'no))
- ((match-end 11)
+ ((match-end 15)
;; Search forward for matching endtask
(setq reg "\\<endtask\\>" )
(setq nest 'no))
- ((match-end 15)
+ ((match-end 19)
;; Search forward for matching endgenerate
(setq reg "\\(\\<generate\\>\\)\\|\\(\\<endgenerate\\>\\)" ))
- ((match-end 16)
+ ((match-end 20)
;; Search forward for matching endgroup
(setq reg "\\(\\<covergroup\\>\\)\\|\\(\\<endgroup\\>\\)" ))
- ((match-end 17)
+ ((match-end 21)
;; Search forward for matching endproperty
(setq reg "\\(\\<property\\>\\)\\|\\(\\<endproperty\\>\\)" ))
- ((match-end 18)
+ ((match-end 25)
;; Search forward for matching endsequence
(setq reg "\\(\\<\\(rand\\)?sequence\\>\\)\\|\\(\\<endsequence\\>\\)" )
(setq md 3)) ; 3 to get to endsequence in the reg above
- ((match-end 19)
+ ((match-end 27)
;; Search forward for matching endclocking
(setq reg "\\(\\<clocking\\>\\)\\|\\(\\<endclocking\\>\\)" )))
(if (and reg
(forward-word 1))
(catch 'skip
- (if (eq nest 'yes)
+ (if (eq nest 'yes)
(let ((depth 1))
(while (verilog-re-search-forward reg nil 'move)
(cond
- ((match-end md) ; the closer in reg, so we are climbing out
+ ((match-end md) ; a closer in regular expression, so we are climbing out
(setq depth (1- depth))
(if (= 0 depth) ; we are out!
(throw 'skip 1)))
- ((match-end 1) ; the opener in reg, so we are deeper now
- (setq depth (1+ depth))))))
+ ((match-end 1) ; an opener in the r-e, so we are in deeper now
+ (setq here (point)) ; remember where we started
+ (goto-char (match-beginning 1))
+ (cond
+ ((looking-at verilog-fork-wait-re)
+ (goto-char (match-end 0))) ; false alarm
+ ((if (or
+ (looking-at verilog-disable-fork-re)
+ (and (looking-at "fork")
+ (progn
+ (forward-word -1)
+ (looking-at verilog-disable-fork-re))))
+ (progn ;; it is a disable fork; another false alarm
+ (goto-char (match-end 0)))
+ (progn ;; it is a simple fork (or has nothing to do with fork)
+ (goto-char here)
+ (setq depth (1+ depth))))))))))
(if (verilog-re-search-forward reg nil 'move)
(throw 'skip 1))))))
-
+
((looking-at (concat
"\\(\\<\\(macro\\)?module\\>\\)\\|"
"\\(\\<primitive\\>\\)\\|"
(defun verilog-declaration-beg ()
(verilog-re-search-backward verilog-declaration-re (bobp) t))
-(defun verilog-font-lock-init ()
- "Initialize fontification."
- ;; highlight keywords and standardized types, attributes, enumeration
- ;; values, and subprograms
- (setq verilog-font-lock-keywords-3
- (append verilog-font-lock-keywords-2
- (when verilog-highlight-translate-off
- (list
- ;; Fontify things in translate off regions
- '(verilog-match-translate-off
- (0 'verilog-font-lock-translate-off-face prepend))))))
- (put 'verilog-mode 'font-lock-defaults
- '((verilog-font-lock-keywords
- verilog-font-lock-keywords-1
- verilog-font-lock-keywords-2
- verilog-font-lock-keywords-3)
- nil ; nil means highlight strings & comments as well as keywords
- nil ; nil means keywords must match case
- nil ; syntax table handled elsewhere
- ;; Function to move to beginning of reasonable region to highlight
- verilog-beg-of-defun)))
-
-;; initialize fontification for Verilog Mode
-(verilog-font-lock-init)
-
;;
;;
;; Mode
will be inserted. Setting this variable to zero results in every
end acquiring a comment; the default avoids too many redundant
comments in tight quarters.
- `verilog-auto-lineup' (default `(all))
+ `verilog-auto-lineup' (default 'declarations)
List of contexts where auto lineup of code should be done.
Variables controlling other actions:
;; Stuff for GNU Emacs
(set (make-local-variable 'font-lock-defaults)
- '((verilog-font-lock-keywords verilog-font-lock-keywords-1
+ `((verilog-font-lock-keywords verilog-font-lock-keywords-1
verilog-font-lock-keywords-2
verilog-font-lock-keywords-3)
- nil nil nil verilog-beg-of-defun))
+ nil nil nil
+ ,(if (functionp 'syntax-ppss)
+ ;; verilog-beg-of-defun uses syntax-ppss, and syntax-ppss uses
+ ;; font-lock-beginning-of-syntax-function, so
+ ;; font-lock-beginning-of-syntax-function, can't use
+ ;; verilog-beg-of-defun.
+ nil
+ 'verilog-beg-of-defun)))
;;------------------------------------------------------------
;; now hook in 'verilog-colorize-include-files (eldo-mode.el&spice-mode.el)
;; all buffer local:
;; Stuff for autos
(add-hook 'write-contents-hooks 'verilog-auto-save-check) ; already local
-;; (verilog-auto-reeval-locals t) ; Save locals in case user changes them
-;; (verilog-getopt-flags)
(run-hooks 'verilog-mode-hook))
\f
't)))
;; see if we should line up assignments
(progn
- (if (or (memq 'all verilog-auto-lineup)
- (memq 'assignments verilog-auto-lineup))
- (verilog-pretty-expr))
+ (if (or (eq 'all verilog-auto-lineup)
+ (eq 'assignments verilog-auto-lineup))
+ (verilog-pretty-expr t "\\(<\\|:\\)?=" ))
(newline))
(forward-line 1))
;; Indent next line
(defun electric-verilog-semi ()
"Insert `;' character and reindent the line."
(interactive)
- (insert last-command-char)
+ (verilog-insert-last-command-event)
(if (or (verilog-in-comment-or-string-p)
(verilog-in-escaped-name-p))
(defun electric-verilog-colon ()
"Insert `:' and do all indentations except line indent on this line."
(interactive)
- (insert last-command-char)
+ (verilog-insert-last-command-event)
;; Do nothing if within string.
(if (or
(verilog-within-string)
;;(defun electric-verilog-equal ()
;; "Insert `=', and do indentation if within block."
;; (interactive)
-;; (insert last-command-char)
+;; (verilog-insert-last-command-event)
;; Could auto line up expressions, but not yet
;; (if (eq (car (verilog-calculate-indent)) 'block)
;; (let ((verilog-tab-always-indent nil))
(defun electric-verilog-tick ()
"Insert back-tick, and indent to column 0 if this is a CPP directive."
(interactive)
- (insert last-command-char)
+ (verilog-insert-last-command-event)
(save-excursion
- (if (progn
- (beginning-of-line)
- (looking-at verilog-directive-re-1))
- (verilog-indent-line))))
+ (if (verilog-in-directive-p)
+ (verilog-indent-line))))
(defun electric-verilog-tab ()
"Function called when TAB is pressed in Verilog mode."
(interactive)
;; If verilog-tab-always-indent, indent the beginning of the line.
- (if (or verilog-tab-always-indent
- (save-excursion
- (skip-chars-backward " \t")
- (bolp)))
- (let* ((oldpnt (point))
- (boi-point
- (save-excursion
- (beginning-of-line)
- (skip-chars-forward " \t")
- (verilog-indent-line)
- (back-to-indentation)
- (point))))
- (if (< (point) boi-point)
- (back-to-indentation)
- (cond ((not verilog-tab-to-comment))
- ((not (eolp))
- (end-of-line))
- (t
- (indent-for-comment)
- (when (and (eolp) (= oldpnt (point)))
+ (cond
+ ;; The region is active, indent it.
+ ((and (region-active-p)
+ (not (eq (region-beginning) (region-end))))
+ (indent-region (region-beginning) (region-end) nil))
+ ((or verilog-tab-always-indent
+ (save-excursion
+ (skip-chars-backward " \t")
+ (bolp)))
+ (let* ((oldpnt (point))
+ (boi-point
+ (save-excursion
+ (beginning-of-line)
+ (skip-chars-forward " \t")
+ (verilog-indent-line)
+ (back-to-indentation)
+ (point))))
+ (if (< (point) boi-point)
+ (back-to-indentation)
+ (cond ((not verilog-tab-to-comment))
+ ((not (eolp))
+ (end-of-line))
+ (t
+ (indent-for-comment)
+ (when (and (eolp) (= oldpnt (point)))
; kill existing comment
- (beginning-of-line)
- (re-search-forward comment-start-skip oldpnt 'move)
- (goto-char (match-beginning 0))
- (skip-chars-backward " \t")
- (kill-region (point) oldpnt))))))
- (progn (insert "\t"))))
+ (beginning-of-line)
+ (re-search-forward comment-start-skip oldpnt 'move)
+ (goto-char (match-beginning 0))
+ (skip-chars-backward " \t")
+ (kill-region (point) oldpnt)))))))
+ (t (progn (insert "\t")))))
\f
(while
;; If the current point does not begin a new
;; statement, as in the character ahead of us is a ';', or SOF
- ;; or the string after us unambiguosly starts a statement,
+ ;; or the string after us unambiguously starts a statement,
;; or the token before us unambiguously ends a statement,
;; then move back a token and test again.
(not (or
(bolp)
(= (preceding-char) ?\;)
+ (looking-at "\\w+\\W*:\\W*\\(coverpoint\\|cross\\|constraint\\)")
(not (or
(looking-at "\\<")
(forward-word -1)))
(and
- (looking-at verilog-extended-complete-re)
+ (looking-at verilog-complete-reg)
(not (save-excursion
(verilog-backward-token)
(looking-at verilog-extended-complete-re))))
(defun verilog-beg-of-statement-1 ()
"Move backward to beginning of statement."
(interactive)
+ (if (verilog-in-comment-p)
+ (verilog-backward-syntactic-ws))
(let ((pt (point)))
-
- (while (and (not (looking-at verilog-complete-reg))
- (setq pt (point))
- (verilog-backward-token)
- (not (looking-at verilog-complete-reg))
- (verilog-backward-syntactic-ws)
- (setq pt (point))
- (not (bolp))
- (not (= (preceding-char) ?\;))))
- (goto-char pt)
- (verilog-forward-ws&directives)))
+ (catch 'done
+ (while (not (looking-at verilog-complete-reg))
+ (setq pt (point))
+ (verilog-backward-syntactic-ws)
+ (if (or (bolp)
+ (= (preceding-char) ?\;))
+ (progn
+ (goto-char pt)
+ (throw 'done t))
+ (verilog-backward-token))))
+ (verilog-forward-syntactic-ws)))
+;
+; (while (and
+; (not (looking-at verilog-complete-reg))
+; (not (bolp))
+; (not (= (preceding-char) ?\;)))
+; (verilog-backward-token)
+; (verilog-backward-syntactic-ws)
+; (setq pt (point)))
+; (goto-char pt)
+; ;(verilog-forward-syntactic-ws)
(defun verilog-end-of-statement ()
"Move forward to end of current statement."
(interactive)
(let ((nest 0) pos)
- (or (looking-at verilog-beg-block-re)
- ;; Skip to end of statement
- (setq pos (catch 'found
- (while t
- (forward-sexp 1)
- (verilog-skip-forward-comment-or-string)
- (cond ((looking-at "[ \t]*;")
- (skip-chars-forward "^;")
- (forward-char 1)
- (throw 'found (point)))
- ((save-excursion
- (forward-sexp -1)
- (looking-at verilog-beg-block-re))
- (goto-char (match-beginning 0))
- (throw 'found nil))
- ((looking-at "[ \t]*)")
- (throw 'found (point)))
- ((eobp)
- (throw 'found (point))))))))
- (if (not pos)
- ;; Skip a whole block
- (catch 'found
- (while t
- (verilog-re-search-forward verilog-end-statement-re nil 'move)
- (setq nest (if (match-end 1)
- (1+ nest)
- (1- nest)))
- (cond ((eobp)
- (throw 'found (point)))
- ((= 0 nest)
- (throw 'found (verilog-end-of-statement))))))
- pos)))
+ (cond
+ ((verilog-in-directive-p)
+ (forward-line 1)
+ (backward-char 1))
+
+ ((looking-at verilog-beg-block-re)
+ (verilog-forward-sexp))
+
+ ((equal (char-after) ?\})
+ (forward-char))
+
+ ;; Skip to end of statement
+ ((condition-case nil
+ (setq pos
+ (catch 'found
+ (while t
+ (forward-sexp 1)
+ (verilog-skip-forward-comment-or-string)
+ (if (eolp)
+ (forward-line 1))
+ (cond ((looking-at "[ \t]*;")
+ (skip-chars-forward "^;")
+ (forward-char 1)
+ (throw 'found (point)))
+ ((save-excursion
+ (forward-sexp -1)
+ (looking-at verilog-beg-block-re))
+ (goto-char (match-beginning 0))
+ (throw 'found nil))
+ ((looking-at "[ \t]*)")
+ (throw 'found (point)))
+ ((eobp)
+ (throw 'found (point)))
+ )))
+
+ )
+ (error nil))
+ (if (not pos)
+ ;; Skip a whole block
+ (catch 'found
+ (while t
+ (verilog-re-search-forward verilog-end-statement-re nil 'move)
+ (setq nest (if (match-end 1)
+ (1+ nest)
+ (1- nest)))
+ (cond ((eobp)
+ (throw 'found (point)))
+ ((= 0 nest)
+ (throw 'found (verilog-end-of-statement))))))
+ pos)))))
(defun verilog-in-case-region-p ()
"Return true if in a case region.
"Return true if in a generate region.
More specifically, after a generate and before an endgenerate."
(interactive)
- (let ((lim (save-excursion (verilog-beg-of-defun) (point)))
- (nest 1))
+ (let ((nest 1))
(save-excursion
- (while (and
- (/= nest 0)
- (verilog-re-search-backward "\\<\\(generate\\)\\|\\(endgenerate\\)\\>" lim 'move)
- (cond
- ((match-end 1) ; generate
- (setq nest (1- nest)))
- ((match-end 2) ; endgenerate
- (setq nest (1+ nest)))))))
+ (catch 'done
+ (while (and
+ (/= nest 0)
+ (verilog-re-search-backward
+ "\\<\\(module\\)\\|\\(generate\\)\\|\\(endgenerate\\)\\>" nil 'move)
+ (cond
+ ((match-end 1) ; module - we have crawled out
+ (throw 'done 1))
+ ((match-end 2) ; generate
+ (setq nest (1- nest)))
+ ((match-end 3) ; endgenerate
+ (setq nest (1+ nest))))))))
(= nest 0) )) ; return nest
(defun verilog-in-fork-region-p ()
((looking-at "\\<randcase\\>")
(setq str "randcase")
(setq err nil))
- ((match-end 0)
- (goto-char (match-end 1))
- (if nil
- (let (s f)
- (setq s (match-beginning 1))
- (setq f (progn (end-of-line)
- (point)))
- (setq str (buffer-substring s f)))
- (setq err nil))
- (setq str (concat (buffer-substring (match-beginning 1) (match-end 1))
- " "
- (verilog-get-expr))))))
+ ((looking-at "\\(\\(unique\\s-+\\|priority\\s-+\\)?case[xz]?\\)")
+ (goto-char (match-end 0))
+ (setq str (concat (match-string 0) " " (verilog-get-expr)))
+ (setq err nil))
+ ))
(end-of-line)
(if kill-existing-comment
(verilog-kill-existing-comment))
(setq str ""))
((looking-at verilog-endcomment-reason-re)
(setq there (match-end 0))
- (setq cntx (concat
- (buffer-substring (match-beginning 0) (match-end 0)) " "))
+ (setq cntx (concat (match-string 0) " "))
(cond
(;- begin
- (match-end 2)
+ (match-end 1)
(setq err nil)
(save-excursion
(if (and (verilog-continued-line)
(goto-char (match-end 0))
(setq there (point))
(setq str
- (concat " // "
- (buffer-substring (match-beginning 0) (match-end 0)) " "
- (verilog-get-expr))))
+ (concat " // " (match-string 0) " " (verilog-get-expr))))
(setq str ""))))
(;- else
- (match-end 4)
+ (match-end 2)
(let ((nest 0)
( reg "\\(\\<begin\\>\\)\\|\\(\\<end\\>\\)\\|\\(\\<if\\>\\)"))
(catch 'skip
(throw 'skip 1)))))))))
(;- end else
- (match-end 5)
+ (match-end 3)
(goto-char there)
(let ((nest 0)
(reg "\\(\\<begin\\>\\)\\|\\(\\<end\\>\\)\\|\\(\\<if\\>\\)"))
(setq str (verilog-get-expr))
(setq str (concat " // else: !if" str ))
(throw 'skip 1)))))))))
+ (; always_comb, always_ff, always_latch
+ (or (match-end 4) (match-end 5) (match-end 6))
+ (goto-char (match-end 0))
+ (setq there (point))
+ (setq err nil)
+ (setq str (concat " // " cntx )))
(;- task/function/initial et cetera
t
(goto-char (match-end 0))
(setq there (point))
(setq err nil)
- (setq str (verilog-get-expr))
- (setq str (concat " // " cntx str )))
+ (setq str (concat " // " cntx (verilog-get-expr))))
(;-- otherwise...
(setq str " // auto-endcomment confused "))))
(t (error "Linter name not set")))))
(defvar compilation-last-buffer)
+(defvar next-error-last-buffer)
(defun verilog-surelint-off ()
"Convert a SureLint warning line into a disable statement.
(and (file-exists-p name)
(find-file-noselect name))))))))
(switch-to-buffer buffer)
- (goto-line (string-to-number line))
+ (goto-char (point-min))
+ (forward-line (- (string-to-number line)))
(end-of-line)
(catch 'already
(cond
(defun verilog-batch-execute-func (funref)
"Internal processing of a batch command, running FUNREF on all command arguments."
(verilog-batch-error-wrapper
+ ;; Setting global variables like that is *VERY NASTY* !!! --Stef
+ ;; However, this function is called only when Emacs is being used as
+ ;; a standalone language instead of as an editor, so we'll live.
+ ;;
;; General globals needed
(setq make-backup-files nil)
(setq-default make-backup-files nil)
(setq enable-local-variables t)
(setq enable-local-eval t)
;; Make sure any sub-files we read get proper mode
- (setq default-major-mode `verilog-mode)
+ (setq-default major-mode 'verilog-mode)
;; Ditto files already read in
(mapc (lambda (buf)
(when (buffer-file-name buf)
- (save-excursion
- (set-buffer buf)
+ (with-current-buffer buf
(verilog-mode))))
(buffer-list))
;; Process the files
(throw 'nesting 'comment))
;; if we have a directive, done.
- (if (save-excursion (beginning-of-line) (looking-at verilog-directive-re-1))
+ (if (save-excursion (beginning-of-line)
+ (and (looking-at verilog-directive-re-1)
+ (not (or (looking-at "[ \t]*`ovm_")
+ (looking-at "[ \t]*`vmm_")))))
(throw 'nesting 'directive))
+ ;; indent structs as if there were module level
+ (if (verilog-in-struct-p)
+ (throw 'nesting 'block))
;; unless we are in the newfangled coverpoint or constraint blocks
;; if we are in a parenthesized list, and the user likes to indent these, return.
(if (and
- verilog-indent-lists
- (not (verilog-in-coverage))
- (verilog-in-paren))
+ verilog-indent-lists
+ (verilog-in-paren)
+ (not (verilog-in-coverage-p))
+ )
(progn (setq par 1)
- (throw 'nesting 'block)))
+ (throw 'nesting 'block)))
;; See if we are continuing a previous line
(while t
(beginning-of-line)
(verilog-forward-syntactic-ws)
(throw 'nesting 'statement)))))
+ ((match-end 3) ; assert block
+ (setq elsec (1- elsec))
+ (verilog-beg-of-statement) ;; doesn't get to beginning
+ (if (looking-at (concat "\\(" verilog-label-re "\\)?"
+ "\\(assert\\|assume\\|cover\\)\\s-+property\\>"))
+ (throw 'nesting 'statement) ; We don't need an endproperty for these
+ (throw 'nesting 'block) ;We still need a endproperty
+ ))
(t ; endblock
; try to leap back to matching outward block by striding across
; indent level changing tokens then immediately
(let (( reg) (nest 1))
;; verilog-ends => else|if|end|join(_any|_none|)|endcase|endclass|endtable|endspecify|endfunction|endtask|endgenerate|endgroup
(cond
- ((match-end 3) ; end
+ ((match-end 4) ; end
;; Search back for matching begin
(setq reg "\\(\\<begin\\>\\)\\|\\(\\<end\\>\\)" ))
- ((match-end 4) ; endcase
+ ((match-end 5) ; endcase
;; Search back for matching case
(setq reg "\\(\\<randcase\\>\\|\\<case[xz]?\\>[^:]\\)\\|\\(\\<endcase\\>\\)" ))
- ((match-end 5) ; endfunction
+ ((match-end 6) ; endfunction
;; Search back for matching function
(setq reg "\\(\\<function\\>\\)\\|\\(\\<endfunction\\>\\)" ))
- ((match-end 6) ; endtask
+ ((match-end 7) ; endtask
;; Search back for matching task
(setq reg "\\(\\<task\\>\\)\\|\\(\\<endtask\\>\\)" ))
- ((match-end 7) ; endspecify
+ ((match-end 8) ; endspecify
;; Search back for matching specify
(setq reg "\\(\\<specify\\>\\)\\|\\(\\<endspecify\\>\\)" ))
- ((match-end 8) ; endtable
+ ((match-end 9) ; endtable
;; Search back for matching table
(setq reg "\\(\\<table\\>\\)\\|\\(\\<endtable\\>\\)" ))
- ((match-end 9) ; endgenerate
+ ((match-end 10) ; endgenerate
;; Search back for matching generate
(setq reg "\\(\\<generate\\>\\)\\|\\(\\<endgenerate\\>\\)" ))
- ((match-end 10) ; joins
+ ((match-end 11) ; joins
;; Search back for matching fork
(setq reg "\\(\\<fork\\>\\)\\|\\(\\<join\\(_any\\|none\\)?\\>\\)" ))
- ((match-end 11) ; class
+ ((match-end 12) ; class
;; Search back for matching class
(setq reg "\\(\\<class\\>\\)\\|\\(\\<endclass\\>\\)" ))
- ((match-end 12) ; covergroup
+ ((match-end 13) ; covergroup
;; Search back for matching covergroup
(setq reg "\\(\\<covergroup\\>\\)\\|\\(\\<endgroup\\>\\)" )))
(catch 'skip
(setq type 'cpp))
(if (and
verilog-indent-lists
- (not (verilog-in-coverage))
+ (not(or (verilog-in-coverage-p)
+ (verilog-in-struct-p)))
(verilog-in-paren))
(setq depth 1)
(cond
(defun verilog-calc-1 ()
(catch 'nesting
- (while (verilog-re-search-backward (concat "\\({\\|}\\|" verilog-indent-re "\\)") nil 'move)
- (cond
- ((equal (char-after) ?\{)
- (if (verilog-at-constraint-p)
- (throw 'nesting 'block)))
- ((equal (char-after) ?\})
+ (let ((re (concat "\\({\\|}\\|" verilog-indent-re "\\)")))
+ (while (verilog-re-search-backward re nil 'move)
+ (catch 'continue
+ (cond
+ ((equal (char-after) ?\{)
+ (if (verilog-at-constraint-p)
+ (throw 'nesting 'block)))
+
+ ((equal (char-after) ?\})
+ (let ((there (verilog-at-close-constraint-p)))
+ (if there ;; we are at the } that closes a constraint. Find the { that opens it
+ (progn
+ (forward-char 1)
+ (backward-list 1)
+ (verilog-beg-of-statement)))))
+
+ ((looking-at verilog-beg-block-re-ordered)
+ (cond
+ ((match-end 2) ; *sigh* could be "unique case" or "priority casex"
+ (let ((here (point)))
+ (verilog-beg-of-statement)
+ (if (looking-at verilog-extended-case-re)
+ (throw 'nesting 'case)
+ (goto-char here)))
+ (throw 'nesting 'case))
+
+ ((match-end 4) ; *sigh* could be "disable fork"
+ (let ((here (point)))
+ (verilog-beg-of-statement)
+ (if (or (looking-at verilog-disable-fork-re)
+ (looking-at verilog-fork-wait-re))
+ t ; this is a normal statement
+ (progn ; or is fork, starts a new block
+ (goto-char here)
+ (throw 'nesting 'block)))))
- (let ((there (verilog-at-close-constraint-p)))
- (if there (goto-char there))))
- ((looking-at verilog-beg-block-re-ordered)
- (cond
- ((match-end 2) ; *sigh* could be "unique case" or "priority casex"
- (let ((here (point)))
- (verilog-beg-of-statement)
- (if (looking-at verilog-extended-case-re)
- (throw 'nesting 'case)
- (goto-char here)))
- (throw 'nesting 'case))
-
- ((match-end 4) ; *sigh* could be "disable fork"
- (let ((here (point)))
- (verilog-beg-of-statement)
- (if (looking-at verilog-disable-fork-re)
- t ; is disable fork, this is a normal statement
- (progn ; or is fork, starts a new block
- (goto-char here)
- (throw 'nesting 'block)))))
-
-
- ;; need to consider typedef struct here...
- ((looking-at "\\<class\\|struct\\|function\\|task\\|property\\>")
+ ;; need to consider typedef struct here...
+ ((looking-at "\\<class\\|struct\\|function\\|task\\>")
; *sigh* These words have an optional prefix:
; extern {virtual|protected}? function a();
- ; assert property (p_1);
; typedef class foo;
; and we don't want to confuse this with
; function a();
; property
; ...
; endfunction
- (verilog-beg-of-statement)
- (if (looking-at verilog-beg-block-re-ordered)
- (throw 'nesting 'block)
- (throw 'nesting 'defun)))
-
- (t (throw 'nesting 'block))))
-
- ((looking-at verilog-end-block-re)
- (verilog-leap-to-head)
- (if (verilog-in-case-region-p)
- (progn
- (verilog-leap-to-case-head)
- (if (looking-at verilog-case-re)
- (throw 'nesting 'case)))))
+ (verilog-beg-of-statement)
+ (if (looking-at verilog-beg-block-re-ordered)
+ (throw 'nesting 'block)
+ (throw 'nesting 'defun)))
+
+ ((looking-at "\\<property\\>")
+ ; *sigh*
+ ; {assert|assume|cover} property (); are complete
+ ; and could also be labeled: - foo: assert property
+ ; but
+ ; property ID () ... needs end_property
+ (verilog-beg-of-statement)
+ (if (looking-at (concat "\\(" verilog-label-re "\\)?"
+ "\\(assert\\|assume\\|cover\\)\\s-+property\\>"))
+ (throw 'continue 'statement) ; We don't need an endproperty for these
+ (throw 'nesting 'block) ;We still need a endproperty
+ ))
+
+ (t (throw 'nesting 'block))))
+
+ ((looking-at verilog-end-block-re)
+ (verilog-leap-to-head)
+ (if (verilog-in-case-region-p)
+ (progn
+ (verilog-leap-to-case-head)
+ (if (looking-at verilog-extended-case-re)
+ (throw 'nesting 'case)))))
- ((looking-at (if (verilog-in-generate-region-p)
- verilog-defun-level-not-generate-re
- verilog-defun-level-re))
- (throw 'nesting 'defun))
+ ((looking-at verilog-defun-level-re)
+ (if (looking-at verilog-defun-level-generate-only-re)
+ (if (verilog-in-generate-region-p)
+ (throw 'continue 'foo) ; always block in a generate - keep looking
+ (throw 'nesting 'defun))
+ (throw 'nesting 'defun)))
- ((looking-at verilog-cpp-level-re)
- (throw 'nesting 'cpp))
+ ((looking-at verilog-cpp-level-re)
+ (throw 'nesting 'cpp))
- ((bobp)
- (throw 'nesting 'cpp))))
- (throw 'nesting 'cpp)))
+ ((bobp)
+ (throw 'nesting 'cpp)))))
+
+ (throw 'nesting 'cpp))))
(defun verilog-calculate-indent-directive ()
"Return indentation level for directive.
(defun verilog-leap-to-case-head ()
(let ((nest 1))
(while (/= 0 nest)
- (verilog-re-search-backward "\\(\\<randcase\\>\\|\\<case[xz]?\\>[^:]\\)\\|\\(\\<endcase\\>\\)" nil 'move)
+ (verilog-re-search-backward
+ (concat
+ "\\(\\<randcase\\>\\|\\(\\<unique\\s-+\\|priority\\s-+\\)?\\<case[xz]?\\>\\)"
+ "\\|\\(\\<endcase\\>\\)" )
+ nil 'move)
(cond
((match-end 1)
+ (let ((here (point)))
+ (verilog-beg-of-statement)
+ (unless (looking-at verilog-extended-case-re)
+ (goto-char here)))
(setq nest (1- nest)))
- ((match-end 2)
+ ((match-end 3)
(setq nest (1+ nest)))
((bobp)
(ding 't)
(setq reg (concat "\\(\\<begin\\>\\)\\|\\(\\<end\\>\\)\\|"
"\\(\\<endcase\\>\\)\\|\\(\\<join\\(_any\\|_none\\)?\\>\\)" )))
((looking-at "\\<endtask\\>")
- ;; 9: Search back for matching task
+ ;; 2: Search back for matching task
(setq reg "\\(\\<task\\>\\)\\|\\(\\(\\(\\<virtual\\>\\s-+\\)\\|\\(\\<protected\\>\\s-+\\)\\)+\\<task\\>\\)")
(setq nesting 'no))
((looking-at "\\<endcase\\>")
- ;; 2: Search back for matching case
- (setq reg "\\(\\<randcase\\>\\|\\<case[xz]?\\>\\)\\|\\(\\<endcase\\>\\)" ))
+ (catch 'nesting
+ (verilog-leap-to-case-head) )
+ (setq reg nil) ; to force skip
+ )
+
((looking-at "\\<join\\(_any\\|_none\\)?\\>")
- ;; 3: Search back for matching fork
+ ;; 4: Search back for matching fork
(setq reg "\\(\\<fork\\>\\)\\|\\(\\<join\\(_any\\|_none\\)?\\>\\)" ))
((looking-at "\\<endclass\\>")
- ;; 4: Search back for matching class
+ ;; 5: Search back for matching class
(setq reg "\\(\\<class\\>\\)\\|\\(\\<endclass\\>\\)" ))
((looking-at "\\<endtable\\>")
- ;; 5: Search back for matching table
+ ;; 6: Search back for matching table
(setq reg "\\(\\<table\\>\\)\\|\\(\\<endtable\\>\\)" ))
((looking-at "\\<endspecify\\>")
- ;; 6: Search back for matching specify
+ ;; 7: Search back for matching specify
(setq reg "\\(\\<specify\\>\\)\\|\\(\\<endspecify\\>\\)" ))
((looking-at "\\<endfunction\\>")
- ;; 7: Search back for matching function
- (setq reg "\\(\\<function\\>\\)\\|\\(\\<endfunction\\>\\)" ))
+ ;; 8: Search back for matching function
+ (setq reg "\\(\\<function\\>\\)\\|\\(\\(\\(\\<virtual\\>\\s-+\\)\\|\\(\\<protected\\>\\s-+\\)\\)+\\<function\\>\\)")
+ (setq nesting 'no))
+ ;;(setq reg "\\(\\<function\\>\\)\\|\\(\\<endfunction\\>\\)" ))
((looking-at "\\<endgenerate\\>")
;; 8: Search back for matching generate
(setq reg "\\(\\<generate\\>\\)\\|\\(\\<endgenerate\\>\\)" ))
((looking-at "\\<endproperty\\>")
;; 11: Search back for matching property
(setq reg "\\(\\<property\\>\\)\\|\\(\\<endproperty\\>\\)" ))
+ ((looking-at verilog-ovm-end-re)
+ ;; 12: Search back for matching sequence
+ (setq reg (concat "\\(" verilog-ovm-begin-re "\\|" verilog-ovm-end-re "\\)")))
+ ((looking-at verilog-vmm-end-re)
+ ;; 12: Search back for matching sequence
+ (setq reg (concat "\\(" verilog-vmm-begin-re "\\|" verilog-vmm-end-re "\\)")))
((looking-at "\\<endinterface\\>")
;; 12: Search back for matching interface
(setq reg "\\(\\<interface\\>\\)\\|\\(\\<endinterface\\>\\)" ))
(while (verilog-re-search-backward reg nil 'move)
(cond
((match-end 1) ; begin
- (setq nest (1- nest))
+ (if (looking-at "fork")
+ (let ((here (point)))
+ (verilog-beg-of-statement)
+ (unless (looking-at verilog-disable-fork-re)
+ (goto-char here)
+ (setq nest (1- nest))))
+ (setq nest (1- nest)))
(if (= 0 nest)
;; Now previous line describes syntax
(throw 'skip 1))
)))
;no nesting
(if (and
- (verilog-re-search-backward reg nil 'move)
+ (verilog-re-search-backward reg nil 'move)
(match-end 1)) ; task -> could be virtual and/or protected
(progn
(verilog-beg-of-statement)
continued))
(defun verilog-backward-token ()
- "Step backward token, returning true if we are now at an end of line token."
+ "Step backward token, returing true if this is a continued line."
(interactive)
(verilog-backward-syntactic-ws)
(cond
(= (preceding-char) ?\})
(progn
(backward-char)
- (verilog-at-close-constraint-p)))
+ (not(verilog-at-close-constraint-p))))
(;-- constraint foo { a = b }
; is a complete statement. *sigh*
(= (preceding-char) ?\{)
(progn
(backward-char)
(not (verilog-at-constraint-p))))
+ (;" string "
+ (= (preceding-char) ?\")
+ (backward-char)
+ (verilog-skip-backward-comment-or-string)
+ nil)
+
+ (; [3:4]
+ (= (preceding-char) ?\])
+ (backward-char)
+ (verilog-backward-open-bracket)
+ t)
+
(;-- Could be 'case (foo)' or 'always @(bar)' which is complete
; also could be simply '@(foo)'
; or foo u1 #(a=8)
(let ((back (point)))
(forward-word -1)
(cond
+ ;;XX
((looking-at "\\<\\(always\\(_latch\\|_ff\\|_comb\\)?\\|case\\(\\|[xz]\\)\\|for\\(\\|each\\|ever\\)\\|i\\(f\\|nitial\\)\\|repeat\\|while\\)\\>")
(not (looking-at "\\<randcase\\>\\|\\<case[xz]?\\>[^:]")))
+ ((looking-at verilog-ovm-statement-re)
+ nil)
+ ((looking-at verilog-ovm-begin-re)
+ t)
+ ((looking-at verilog-ovm-end-re)
+ t)
+ ;; JBA find VMM macros
+ ((looking-at verilog-vmm-statement-re)
+ nil )
+ ((looking-at verilog-vmm-begin-re)
+ t)
+ ((looking-at verilog-vmm-end-re)
+ nil)
+ ;; JBA trying to catch macro lines with no ; at end
+ ((looking-at "\\<`")
+ nil)
(t
(goto-char back)
(cond
(;-- any of begin|initial|while are complete statements; 'begin : foo' is also complete
t
(forward-word -1)
+ (while (= (preceding-char) ?\_)
+ (forward-word -1))
(cond
((looking-at "\\<else\\>")
t)
(goto-char back)
t))))))))
-(defun verilog-backward-syntactic-ws (&optional bound)
- "Backward skip over syntactic whitespace for Emacs 19.
-Optional BOUND limits search."
- (save-restriction
- (let* ((bound (or bound (point-min))) (here bound) )
- (if (< bound (point))
- (progn
- (narrow-to-region bound (point))
- (while (/= here (point))
- (setq here (point))
- (verilog-skip-backward-comments))))))
- t)
+(defun verilog-backward-syntactic-ws ()
+ (verilog-skip-backward-comments)
+ (forward-comment (- (buffer-size))))
-(defun verilog-forward-syntactic-ws (&optional bound)
- "Forward skip over syntactic whitespace for Emacs 19.
-Optional BOUND limits search."
- (save-restriction
- (let* ((bound (or bound (point-max)))
- (here bound))
- (if (> bound (point))
- (progn
- (narrow-to-region (point) bound)
- (while (/= here (point))
- (setq here (point))
- (forward-comment (buffer-size))))))))
+(defun verilog-forward-syntactic-ws ()
+ (verilog-skip-forward-comment-p)
+ (forward-comment (buffer-size)))
(defun verilog-backward-ws&directives (&optional bound)
"Backward skip over syntactic whitespace and compiler directives for Emacs 19.
(save-excursion
(beginning-of-line)
(cond
- ((verilog-within-translate-off)
+ ((and verilog-highlight-translate-off
+ (verilog-within-translate-off))
(verilog-back-to-start-translate-off (point-min)))
((looking-at verilog-directive-re-1)
(point))
(if (equal (char-after (point) ) ?\\ )
t
nil)))
+(defun verilog-in-directive-p ()
+ "Return true if in a star or // comment."
+ (save-excursion
+ (beginning-of-line)
+ (looking-at verilog-directive-re-1)))
(defun verilog-in-paren ()
"Return true if in a parenthetical expression."
(let ((state (save-excursion (verilog-syntax-ppss))))
(> (nth 0 state) 0 )))
-(defun verilog-in-coverage ()
+(defun verilog-in-struct-p ()
+ "Return true if in a struct declaration."
+ (interactive)
+ (save-excursion
+ (if (verilog-in-paren)
+ (progn
+ (backward-up-list 1)
+ (verilog-at-struct-p)
+ )
+ nil)))
+
+(defun verilog-in-coverage-p ()
"Return true if in a constraint or coverpoint expression."
(interactive)
(save-excursion
;; not
nil))
+(defun verilog-at-struct-p ()
+ "If at the { of a struct, return true, moving point to struct."
+ (save-excursion
+ (if (and (equal (char-after) ?\{)
+ (verilog-backward-token))
+ (looking-at "\\<struct\\|union\\|packed\\|\\(un\\)?signed\\>")
+ nil)))
+
(defun verilog-parenthesis-depth ()
"Return non zero if in parenthetical-expression."
(save-excursion (nth 1 (verilog-syntax-ppss))))
(search-backward "/*")
(skip-chars-backward " \t\n\f")
t)
- ((and (not (bobp))
- (= (char-before) ?\/)
- (= (char-before (1- (point))) ?\*))
- (goto-char (- (point) 2))
- t)
- (t
- (skip-chars-backward " \t\n\f")
- nil)))))))
+ ((if (and (not (bobp))
+ (= (char-before) ?\/)
+ (= (char-before (1- (point))) ?\*))
+ (goto-char (- (point) 2))
+ (/= (skip-chars-backward " \t\n\f") 0)))))))))
(defun verilog-skip-forward-comment-p ()
"If in comment, move to end and return true."
(progn
(setq state (save-excursion (verilog-syntax-ppss)))
(cond
- ((nth 3 state)
+ ((nth 3 state) ;Inside string
t)
((nth 7 state) ;Inside // comment
(end-of-line)
(forward-char 1)
t)
((nth 4 state) ;Inside any comment
+ (search-forward "*/")
+ (skip-chars-forward " \t\n\f")
t)
(t
- nil)))))
+ (skip-chars-forward " \t\n\f"))))))
(defun verilog-indent-line-relative ()
"Cheap version of indent line.
(current-column))))
(indent-line-to val)
))
-
+
(;-- Handle the ends
(or
(looking-at verilog-end-block-re )
(cond
((looking-at verilog-named-block-re)
(current-column))
- ((and (not (looking-at verilog-case-re))
+ ((and (not (looking-at verilog-extended-case-re))
(looking-at "^[^:;]+[ \t]*:"))
(verilog-re-search-forward ":" nil t)
(skip-chars-forward " \t")
;;
(defun verilog-pretty-declarations (&optional quiet)
- "Line up declarations around point."
+ "Line up declarations around point.
+Be verbose about progress unless optional QUIET set."
(interactive)
- (save-excursion
- (if (progn
- (verilog-beg-of-statement-1)
- (looking-at verilog-declaration-re))
- (let* ((m1 (make-marker))
- (e) (r)
- (here (point))
- ;; Start of declaration range
- (start
- (progn
- (verilog-beg-of-statement-1)
- (while (looking-at verilog-declaration-re)
- (beginning-of-line)
- (setq e (point))
- (verilog-backward-syntactic-ws)
- (backward-char)
- (verilog-beg-of-statement-1)) ;Ack, need to grok `define
- e))
- ;; End of declaration range
- (end
- (progn
- (goto-char here)
- (verilog-end-of-statement)
- (setq e (point)) ;Might be on last line
- (verilog-forward-syntactic-ws)
- (while (looking-at verilog-declaration-re)
- (beginning-of-line)
- (verilog-end-of-statement)
- (setq e (point))
- (verilog-forward-syntactic-ws))
- e))
- (edpos (set-marker (make-marker) end))
- (ind)
- (base-ind
- (progn
- (goto-char start)
- (verilog-do-indent (verilog-calculate-indent))
- (verilog-forward-ws&directives)
- (current-column))))
- (goto-char end)
- (goto-char start)
- (if (and (not quiet)
- (> (- end start) 100))
- (message "Lining up declarations..(please stand by)"))
- ;; Get the beginning of line indent first
- (while (progn (setq e (marker-position edpos))
- (< (point) e))
- (cond
- ( (save-excursion (skip-chars-backward " \t")
- (bolp))
- (verilog-forward-ws&directives)
- (indent-line-to base-ind)
- (verilog-forward-ws&directives)
- (verilog-re-search-forward "[ \t\n\f]" e 'move))
- (t
- (just-one-space)
- (verilog-re-search-forward "[ \t\n\f]" e 'move)))
- ;;(forward-line)
- )
- ;; Now find biggest prefix
- (setq ind (verilog-get-lineup-indent start edpos))
- ;; Now indent each line.
- (goto-char start)
- (while (progn (setq e (marker-position edpos))
- (setq r (- e (point)))
- (> r 0))
- (setq e (point))
- (unless quiet (message "%d" r))
- (cond
- ((or (and verilog-indent-declaration-macros
- (looking-at verilog-declaration-re-1-macro))
- (looking-at verilog-declaration-re-1-no-macro))
- (let ((p (match-end 0)))
- (set-marker m1 p)
- (if (verilog-re-search-forward "[[#`]" p 'move)
- (progn
- (forward-char -1)
- (just-one-space)
- (goto-char (marker-position m1))
- (just-one-space)
- (indent-to ind))
- (progn
- (just-one-space)
- (indent-to ind)))))
- ((verilog-continued-line-1 start)
- (goto-char e)
- (indent-line-to ind))
- (t ; Must be comment or white space
- (goto-char e)
- (verilog-forward-ws&directives)
- (forward-line -1)))
- (forward-line 1))
- (unless quiet (message ""))))))
-
-(defun verilog-pretty-expr (&optional quiet myre)
- "Line up expressions around point, or optional regexp MYRE."
- (interactive "sRegular Expression: ((<|:)?=) ")
- (save-excursion
- (if (or (eq myre nil)
- (string-equal myre ""))
- (setq myre "\\(<\\|:\\)?="))
- (setq myre (concat "\\(^[^;#<=>]*\\)\\(" myre "\\)"))
- (let ((rexp(concat "^\\s-*" verilog-complete-reg)))
- (beginning-of-line)
- (if (and (not (looking-at rexp ))
- (looking-at myre))
- (let* ((here (point))
- (e) (r)
- (start
- (progn
- (beginning-of-line)
- (setq e (point))
- (verilog-backward-syntactic-ws)
- (beginning-of-line)
- (while (and (not (looking-at rexp ))
- (looking-at myre)
- (not (bobp))
- )
- (setq e (point))
- (verilog-backward-syntactic-ws)
- (beginning-of-line)
- ) ;Ack, need to grok `define
- e))
- (end
- (progn
- (goto-char here)
- (end-of-line)
- (setq e (point)) ;Might be on last line
- (verilog-forward-syntactic-ws)
- (beginning-of-line)
- (while (and (not (looking-at rexp ))
- (looking-at myre))
- (end-of-line)
- (setq e (point))
- (verilog-forward-syntactic-ws)
- (beginning-of-line)
+ (let* ((m1 (make-marker))
+ (e (point))
+ el
+ r
+ (here (point))
+ ind
+ start
+ startpos
+ end
+ endpos
+ base-ind
+ )
+ (save-excursion
+ (if (progn
+; (verilog-beg-of-statement-1)
+ (beginning-of-line)
+ (verilog-forward-syntactic-ws)
+ (and (not (verilog-in-directive-p)) ;; could have `define input foo
+ (looking-at verilog-declaration-re)))
+ (progn
+ (if (verilog-parenthesis-depth)
+ ;; in an argument list or parameter block
+ (setq el (backward-up-list -1)
+ start (progn
+ (goto-char e)
+ (backward-up-list 1)
+ (forward-line) ;; ignore ( input foo,
+ (verilog-re-search-forward verilog-declaration-re el 'move)
+ (goto-char (match-beginning 0))
+ (skip-chars-backward " \t")
+ (point))
+ startpos (set-marker (make-marker) start)
+ end (progn
+ (goto-char start)
+ (backward-up-list -1)
+ (forward-char -1)
+ (verilog-backward-syntactic-ws)
+ (point))
+ endpos (set-marker (make-marker) end)
+ base-ind (progn
+ (goto-char start)
+ (verilog-do-indent (verilog-calculate-indent))
+ (verilog-forward-ws&directives)
+ (current-column))
)
- e))
- (edpos (set-marker (make-marker) end))
- (ind)
- )
- (goto-char start)
- (verilog-do-indent (verilog-calculate-indent))
+ ;; in a declaration block (not in argument list)
+ (setq
+ start (progn
+ (verilog-beg-of-statement-1)
+ (while (and (looking-at verilog-declaration-re)
+ (not (bobp)))
+ (skip-chars-backward " \t")
+ (setq e (point))
+ (beginning-of-line)
+ (verilog-backward-syntactic-ws)
+ (backward-char)
+ (verilog-beg-of-statement-1))
+ e)
+ startpos (set-marker (make-marker) start)
+ end (progn
+ (goto-char here)
+ (verilog-end-of-statement)
+ (setq e (point)) ;Might be on last line
+ (verilog-forward-syntactic-ws)
+ (while (looking-at verilog-declaration-re)
+ ;;(beginning-of-line)
+ (verilog-end-of-statement)
+ (setq e (point))
+ (verilog-forward-syntactic-ws))
+ e)
+ endpos (set-marker (make-marker) end)
+ base-ind (progn
+ (goto-char start)
+ (verilog-do-indent (verilog-calculate-indent))
+ (verilog-forward-ws&directives)
+ (current-column))))
+ ;; OK, start and end are set
+ (goto-char (marker-position startpos))
(if (and (not quiet)
(> (- end start) 100))
- (message "Lining up expressions..(please stand by)"))
-
- ;; Set indent to minimum throughout region
- (while (< (point) (marker-position edpos))
- (beginning-of-line)
- (verilog-just-one-space myre)
- (end-of-line)
- (verilog-forward-syntactic-ws)
+ (message "Lining up declarations..(please stand by)"))
+ ;; Get the beginning of line indent first
+ (while (progn (setq e (marker-position endpos))
+ (< (point) e))
+ (cond
+ ((save-excursion (skip-chars-backward " \t")
+ (bolp))
+ (verilog-forward-ws&directives)
+ (indent-line-to base-ind)
+ (verilog-forward-ws&directives)
+ (if (< (point) e)
+ (verilog-re-search-forward "[ \t\n\f]" e 'move)))
+ (t
+ (just-one-space)
+ (verilog-re-search-forward "[ \t\n\f]" e 'move)))
+ ;;(forward-line)
)
-
;; Now find biggest prefix
- (setq ind (verilog-get-lineup-indent-2 myre start edpos))
-
+ (setq ind (verilog-get-lineup-indent (marker-position startpos) endpos))
;; Now indent each line.
- (goto-char start)
- (while (progn (setq e (marker-position edpos))
+ (goto-char (marker-position startpos))
+ (while (progn (setq e (marker-position endpos))
(setq r (- e (point)))
(> r 0))
(setq e (point))
- (if (not quiet) (message "%d" r))
+ (unless quiet (message "%d" r))
+ (verilog-indent-line)
+ (verilog-forward-ws&directives)
(cond
- ((looking-at myre)
- (goto-char (match-end 1))
- (if (not (verilog-parenthesis-depth)) ;; ignore parenthsized exprs
- (if (eq (char-after) ?=)
- (indent-to (1+ ind)) ; line up the = of the <= with surrounding =
- (indent-to ind)
- )))
- ((verilog-continued-line-1 start)
+ ((or (and verilog-indent-declaration-macros
+ (looking-at verilog-declaration-re-2-macro))
+ (looking-at verilog-declaration-re-2-no-macro))
+ (let ((p (match-end 0)))
+ (set-marker m1 p)
+ (if (verilog-re-search-forward "[[#`]" p 'move)
+ (progn
+ (forward-char -1)
+ (just-one-space)
+ (goto-char (marker-position m1))
+ (just-one-space)
+ (indent-to ind))
+ (progn
+ (just-one-space)
+ (indent-to ind)))))
+ ((verilog-continued-line-1 (marker-position startpos))
(goto-char e)
(indent-line-to ind))
+ ((verilog-in-struct-p)
+ ;; could have a declaration of a user defined item
+ (goto-char e)
+ (verilog-end-of-statement))
(t ; Must be comment or white space
(goto-char e)
(verilog-forward-ws&directives)
- (forward-line -1))
- )
+ (forward-line -1)))
(forward-line 1))
- (unless quiet (message ""))
- )))))
+ (unless quiet (message "")))))))
+
+(defun verilog-pretty-expr (&optional quiet myre)
+ "Line up expressions around point, optionally QUIET with regexp MYRE."
+ (interactive "sRegular Expression: ((<|:)?=) ")
+ (save-excursion
+ (if (or (eq myre nil)
+ (string-equal myre ""))
+ (setq myre "\\(<\\|:\\)?="))
+ ;; want to match the first <= | := | =
+ (setq myre (concat "\\(^.*?\\)\\(" myre "\\)"))
+ (let ((rexp(concat "^\\s-*" verilog-complete-reg)))
+ (beginning-of-line)
+ (if (and (not (looking-at rexp ))
+ (looking-at myre)
+ (save-excursion
+ (goto-char (match-beginning 2))
+ (not (verilog-in-comment-or-string-p))))
+ (let* ((here (point))
+ (e) (r)
+ (start
+ (progn
+ (beginning-of-line)
+ (setq e (point))
+ (verilog-backward-syntactic-ws)
+ (beginning-of-line)
+ (while (and (not (looking-at rexp ))
+ (looking-at myre)
+ (not (bobp))
+ )
+ (setq e (point))
+ (verilog-backward-syntactic-ws)
+ (beginning-of-line)
+ ) ;Ack, need to grok `define
+ e))
+ (end
+ (progn
+ (goto-char here)
+ (end-of-line)
+ (setq e (point)) ;Might be on last line
+ (verilog-forward-syntactic-ws)
+ (beginning-of-line)
+ (while (and
+ (not (looking-at rexp ))
+ (looking-at myre)
+ (progn
+ (end-of-line)
+ (not (eq e (point)))))
+ (setq e (point))
+ (verilog-forward-syntactic-ws)
+ (beginning-of-line)
+ )
+ e))
+ (endpos (set-marker (make-marker) end))
+ (ind)
+ )
+ (goto-char start)
+ (verilog-do-indent (verilog-calculate-indent))
+ (if (and (not quiet)
+ (> (- end start) 100))
+ (message "Lining up expressions..(please stand by)"))
+
+ ;; Set indent to minimum throughout region
+ (while (< (point) (marker-position endpos))
+ (beginning-of-line)
+ (verilog-just-one-space myre)
+ (end-of-line)
+ (verilog-forward-syntactic-ws)
+ )
+
+ ;; Now find biggest prefix
+ (setq ind (verilog-get-lineup-indent-2 myre start endpos))
+
+ ;; Now indent each line.
+ (goto-char start)
+ (while (progn (setq e (marker-position endpos))
+ (setq r (- e (point)))
+ (> r 0))
+ (setq e (point))
+ (if (not quiet) (message "%d" r))
+ (cond
+ ((looking-at myre)
+ (goto-char (match-beginning 2))
+ (if (not (verilog-parenthesis-depth)) ;; ignore parenthesized exprs
+ (if (eq (char-after) ?=)
+ (indent-to (1+ ind)) ; line up the = of the <= with surrounding =
+ (indent-to ind)
+ )))
+ ((verilog-continued-line-1 start)
+ (goto-char e)
+ (indent-line-to ind))
+ (t ; Must be comment or white space
+ (goto-char e)
+ (verilog-forward-ws&directives)
+ (forward-line -1))
+ )
+ (forward-line 1))
+ (unless quiet (message ""))
+ )))))
(defun verilog-just-one-space (myre)
"Remove extra spaces around regular expression MYRE."
(indent-line-to val)
;; Use previous declaration (in this module) as template.
- (if (or (memq 'all verilog-auto-lineup)
- (memq 'declaration verilog-auto-lineup))
+ (if (or (eq 'all verilog-auto-lineup)
+ (eq 'declarations verilog-auto-lineup))
(if (verilog-re-search-backward
(or (and verilog-indent-declaration-macros
verilog-declaration-re-1-macro)
;; No lineup-string found
(goto-char b)
(end-of-line)
- (skip-chars-backward " \t")
+ (verilog-backward-syntactic-ws)
+ ;;(skip-chars-backward " \t")
(1+ (current-column))))))
(defun verilog-get-lineup-indent-2 (myre b edpos)
(while (progn (setq e (marker-position edpos))
(< (point) e))
(if (and (verilog-re-search-forward myre e 'move)
- (not (verilog-parenthesis-depth))) ;; skip parenthsized exprs
+ (not (verilog-parenthesis-depth))) ;; skip parenthesized exprs
(progn
(goto-char (match-beginning 2))
(verilog-backward-syntactic-ws)
'(
"and" "buf" "bufif0" "bufif1" "cmos" "defparam" "inout" "input"
"integer" "localparam" "logic" "mailbox" "nand" "nmos" "nor" "not" "notif0"
- "notif1" "or" "output" "parameter" "pmos" "pull0" "pull1" "pullup"
+ "notif1" "or" "output" "parameter" "pmos" "pull0" "pull1" "pulldown" "pullup"
"rcmos" "real" "realtime" "reg" "rnmos" "rpmos" "rtran" "rtranif0"
"rtranif1" "semaphore" "time" "tran" "tranif0" "tranif1" "tri" "tri0" "tri1"
"triand" "trior" "trireg" "wand" "wire" "wor" "xnor" "xor"
)
"*Keywords for types used when completing a word in a declaration or parmlist.
-\(Eg. integer, real, reg...)")
+\(integer, real, reg...)")
(defvar verilog-cpp-keywords
'("module" "macromodule" "primitive" "timescale" "define" "ifdef" "ifndef" "else"
"endif")
"*Keywords to complete when at first word of a line in declarative scope.
-\(Eg. initial, always, begin, assign.)
+\(initial, always, begin, assign...)
The procedures and variables defined within the Verilog program
will be completed at runtime and should not be added to this list.")
)
verilog-type-keywords)
"*Keywords to complete when at first word of a line in declarative scope.
-\(Eg. initial, always, begin, assign.)
+\(initial, always, begin, assign...)
The procedures and variables defined within the Verilog program
will be completed at runtime and should not be added to this list.")
"for" "fork" "if" "join" "join_any" "join_none" "repeat" "return"
"while")
"*Keywords to complete when at first word of a line in behavioral scope.
-\(Eg. begin, if, then, else, for, fork.)
+\(begin, if, then, else, for, fork...)
The procedures and variables defined within the Verilog program
will be completed at runtime and should not be added to this list.")
(defvar verilog-tf-keywords
'("begin" "break" "fork" "join" "join_any" "join_none" "case" "end" "endtask" "endfunction" "if" "else" "for" "while" "repeat")
"*Keywords to complete when at first word of a line in a task or function.
-\(Eg. begin, if, then, else, for, fork.)
+\(begin, if, then, else, for, fork.)
The procedures and variables defined within the Verilog program
will be completed at runtime and should not be added to this list.")
(defvar verilog-case-keywords
'("begin" "fork" "join" "join_any" "join_none" "case" "end" "endcase" "if" "else" "for" "repeat")
"*Keywords to complete when at first word of a line in case scope.
-\(Eg. begin, if, then, else, for, fork.)
+\(begin, if, then, else, for, fork...)
The procedures and variables defined within the Verilog program
will be completed at runtime and should not be added to this list.")
(defvar verilog-separator-keywords
'("else" "then" "begin")
"*Keywords to complete when NOT standing at the first word of a statement.
-\(Eg. else, then.)
+\(else, then, begin...)
Variables and function names defined within the Verilog program
will be completed at runtime and should not be added to this list.")
(verilog-buffer-to-use (current-buffer))
(label (if (not (string= default ""))
;; Do completion with default
- (completing-read (concat "Label: (default " default ") ")
+ (completing-read (concat "Goto-Label: (default "
+ default ") ")
'verilog-comp-defun nil nil "")
;; There is no default value. Complete without it
- (completing-read "Label: "
+ (completing-read "Goto-Label: "
'verilog-comp-defun nil nil "")))
pt)
+ ;; Make sure library paths are correct, in case need to resolve module
+ (verilog-auto-reeval-locals)
+ (verilog-getopt-flags)
;; If there was no response on prompt, use default value
(if (string= label "")
(setq label default))
;; Added by Subbu Meiyappan for Header
(defun verilog-header ()
- "Insert a standard Verilog file header."
+ "Insert a standard Verilog file header.
+See also `verilog-sk-header' for an alternative format."
(interactive)
(let ((start (point)))
(insert "\
(defun verilog-insert-date ()
"Insert date from the system."
(interactive)
- (let ((timpos))
- (setq timpos (point))
- (if verilog-date-scientific-format
- (shell-command "date \"+@%Y/%m/%d\"" t)
- (shell-command "date \"+@%d.%m.%Y\"" t))
- (search-forward "@")
- (delete-region timpos (point))
- (end-of-line))
- (delete-char 1))
+ (if verilog-date-scientific-format
+ (insert (format-time-string "%Y/%m/%d"))
+ (insert (format-time-string "%d.%m.%Y"))))
(defun verilog-insert-year ()
"Insert year from the system."
(interactive)
- (let ((timpos))
- (setq timpos (point))
- (shell-command "date \"+@%Y\"" t)
- (search-forward "@")
- (delete-region timpos (point))
- (end-of-line))
- (delete-char 1))
+ (insert (format-time-string "%Y")))
\f
;;
(setq str (concat str (car args)))
(setq args (cdr args)))
str)))
+(defsubst verilog-sig-modport (sig)
+ (nth 8 sig))
(defsubst verilog-sig-width (sig)
(verilog-make-width-expression (verilog-sig-bits sig)))
sig highbit lowbit ; Temp information about current signal
sv-name sv-highbit sv-lowbit ; Details about signal we are forming
sv-comment sv-memory sv-enum sv-signed sv-type sv-multidim sv-busstring
+ sv-modport
bus)
;; Shove signals so duplicated signals will be adjacent
(setq in-list (sort in-list `verilog-signals-sort-compare))
sv-signed (verilog-sig-signed sig)
sv-type (verilog-sig-type sig)
sv-multidim (verilog-sig-multidim sig)
+ sv-modport (verilog-sig-modport sig)
combo ""
buswarn ""))
;; Extract bus details
sv-enum (or sv-enum (verilog-sig-enum sig))
sv-signed (or sv-signed (verilog-sig-signed sig))
sv-type (or sv-type (verilog-sig-type sig))
- sv-multidim (or sv-multidim (verilog-sig-multidim sig))))
+ sv-multidim (or sv-multidim (verilog-sig-multidim sig))
+ sv-modport (or sv-modport (verilog-sig-modport sig))))
;; Doesn't match next signal, add to queue, zero in prep for next
;; Note sig may also be nil for the last signal in the list
(t
(concat "[" (int-to-string sv-highbit) ":"
(int-to-string sv-lowbit) "]")))
(concat sv-comment combo buswarn)
- sv-memory sv-enum sv-signed sv-type sv-multidim)
+ sv-memory sv-enum sv-signed sv-type sv-multidim sv-modport)
out-list)
sv-name nil))))
;;
(skip-chars-backward "a-zA-Z0-9`_$")
(looking-at "[a-zA-Z0-9`_\$]+")
;; Important: don't use match string, this must work with Emacs 19 font-lock on
- (buffer-substring-no-properties (match-beginning 0) (match-end 0))))
+ (verilog-symbol-detick
+ (buffer-substring-no-properties (match-beginning 0) (match-end 0)) t)))
(defun verilog-read-inst-param-value ()
"Return list of parameters and values when point is inside instantiation."
"Compute signal declaration information for the current module at point.
Return a array of [outputs inouts inputs wire reg assign const]."
(let ((end-mod-point (or (verilog-get-end-of-defun t) (point-max)))
- (functask 0) (paren 0) (sig-paren 0)
- sigs-in sigs-out sigs-inout sigs-wire sigs-reg sigs-assign sigs-const sigs-gparam
- vec expect-signal keywd newsig rvalue enum io signed typedefed multidim)
+ (functask 0) (paren 0) (sig-paren 0) (v2kargs-ok t)
+ sigs-in sigs-out sigs-inout sigs-wire sigs-reg sigs-assign sigs-const
+ sigs-gparam sigs-intf
+ vec expect-signal keywd newsig rvalue enum io signed typedefed multidim
+ modport)
(save-excursion
(verilog-beg-of-defun)
(setq sigs-const (verilog-read-auto-constants (point) end-mod-point))
(error "%s: Unmatched /* */, at char %d" (verilog-point-text) (point))))
((looking-at "(\\*")
(forward-char 2)
- (or (looking-at "\\s-*)") ; It's a "always @ (*)"
+ (or (looking-at "\\s-*)") ; It's an "always @ (*)"
(search-forward "*)")
(error "%s: Unmatched (* *), at char %d" (verilog-point-text) (point))))
((eq ?\" (following-char))
(or (re-search-forward "[^\\]\"" nil t) ;; don't forward-char first, since we look for a non backslash first
(error "%s: Unmatched quotes, at char %d" (verilog-point-text) (point))))
((eq ?\; (following-char))
- (setq vec nil io nil expect-signal nil newsig nil paren 0 rvalue nil)
+ (setq vec nil io nil expect-signal nil newsig nil paren 0 rvalue nil
+ v2kargs-ok nil)
(forward-char 1))
((eq ?= (following-char))
(setq rvalue t newsig nil)
(forward-char 1))
- ((and (or rvalue sig-paren)
- (cond ((and (eq ?, (following-char))
- (eq paren sig-paren))
- (setq rvalue nil)
- (forward-char 1)
- t)
- ;; ,'s can occur inside {} & funcs
- ((looking-at "[{(]")
- (setq paren (1+ paren))
- (forward-char 1)
- t)
- ((looking-at "[})]")
- (setq paren (1- paren))
- (forward-char 1)
- (when (< paren sig-paren)
- (setq expect-signal nil)) ; ) that ends variables inside v2k arg list
- t))))
+ ((and (eq ?, (following-char))
+ (eq paren sig-paren))
+ (setq rvalue nil)
+ (forward-char 1))
+ ;; ,'s can occur inside {} & funcs
+ ((looking-at "[{(]")
+ (setq paren (1+ paren))
+ (forward-char 1))
+ ((looking-at "[})]")
+ (setq paren (1- paren))
+ (forward-char 1)
+ (when (< paren sig-paren)
+ (setq expect-signal nil))) ; ) that ends variables inside v2k arg list
((looking-at "\\s-*\\(\\[[^]]+\\]\\)")
(goto-char (match-end 0))
(cond (newsig ; Memory, not just width. Patch last signal added's memory (nth 3)
((looking-at "\\s-*\\([a-zA-Z0-9`_$]+\\|\\\\[^ \t\n\f]+\\)")
(goto-char (match-end 0))
(setq keywd (match-string 1))
- (when (string-match "^\\\\" keywd)
+ (when (string-match "^\\\\" (match-string 1))
(setq keywd (concat keywd " "))) ;; Escaped ID needs space at end
+ ;; Add any :: package names to same identifier
+ (while (looking-at "\\s-*::\\s-*\\([a-zA-Z0-9`_$]+\\|\\\\[^ \t\n\f]+\\)")
+ (goto-char (match-end 0))
+ (setq keywd (concat keywd "::" (match-string 1)))
+ (when (string-match "^\\\\" (match-string 1))
+ (setq keywd (concat keywd " ")))) ;; Escaped ID needs space at end
(cond ((equal keywd "input")
(setq vec nil enum nil rvalue nil newsig nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-in io t))
+ expect-signal 'sigs-in io t modport nil))
((equal keywd "output")
(setq vec nil enum nil rvalue nil newsig nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-out io t))
+ expect-signal 'sigs-out io t modport nil))
((equal keywd "inout")
(setq vec nil enum nil rvalue nil newsig nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-inout io t))
- ((or (equal keywd "wire")
- (equal keywd "tri")
- (equal keywd "tri0")
- (equal keywd "tri1"))
+ expect-signal 'sigs-inout io t modport nil))
+ ((equal keywd "parameter")
+ (setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
+ expect-signal 'sigs-gparam io t modport nil))
+ ((member keywd '("wire" "tri" "tri0" "tri1" "triand" "trior" "wand" "wor"))
(unless io (setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-wire)))
- ((member keywd (list "reg" "trireg"
- "byte" "shortint" "int" "longint" "integer" "time"
- "bit" "logic"))
+ expect-signal 'sigs-wire modport nil)))
+ ((member keywd '("reg" "trireg"
+ "byte" "shortint" "int" "longint" "integer" "time"
+ "bit" "logic"))
(unless io (setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-reg)))
+ expect-signal 'sigs-reg modport nil)))
((equal keywd "assign")
(setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-assign))
- ((or (equal keywd "supply0")
- (equal keywd "supply1")
- (equal keywd "supply")
- (equal keywd "localparam")
- (equal keywd "genvar"))
- (unless io (setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-const)))
- ((or (equal keywd "parameter"))
+ expect-signal 'sigs-assign modport nil))
+ ((member keywd '("supply0" "supply1" "supply"
+ "localparam" "genvar"))
(unless io (setq vec nil enum nil rvalue nil signed nil typedefed nil multidim nil sig-paren paren
- expect-signal 'sigs-gparam)))
+ expect-signal 'sigs-const modport nil)))
((equal keywd "signed")
(setq signed "signed"))
- ((or (equal keywd "function")
- (equal keywd "task"))
+ ((member keywd '("class" "clocking" "covergroup" "function"
+ "property" "randsequence" "sequence" "task"))
(setq functask (1+ functask)))
- ((or (equal keywd "endfunction")
- (equal keywd "endtask"))
+ ((member keywd '("endclass" "endclocking" "endgroup" "endfunction"
+ "endproperty" "endsequence" "endtask"))
(setq functask (1- functask)))
- ((or (equal keywd "`ifdef")
- (equal keywd "`ifndef"))
+ ;; Ifdef? Ignore name of define
+ ((member keywd '("`ifdef" "`ifndef"))
(setq rvalue t))
+ ;; Type?
((verilog-typedef-name-p keywd)
(setq typedefed keywd))
+ ;; Interface with optional modport in v2k arglist?
+ ;; Skip over parsing modport, and take the interface name as the type
+ ((and v2kargs-ok
+ (eq paren 1)
+ (looking-at "\\s-*\\(\\.\\(\\s-*[a-zA-Z0-9`_$]+\\)\\|\\)\\s-*[a-zA-Z0-9`_$]+"))
+ (when (match-end 2) (goto-char (match-end 2)))
+ (setq vec nil enum nil rvalue nil newsig nil signed nil typedefed keywd multidim nil sig-paren paren
+ expect-signal 'sigs-intf io t modport (match-string 2)))
+ ;; New signal, maybe?
((and expect-signal
(eq functask 0)
(not rvalue)
- (eq paren sig-paren)
(not (member keywd verilog-keywords)))
;; Add new signal to expect-signal's variable
- (setq newsig (list keywd vec nil nil enum signed typedefed multidim))
+ (setq newsig (list keywd vec nil nil enum signed typedefed multidim modport))
(set expect-signal (cons newsig
(symbol-value expect-signal))))))
(t
(nreverse sigs-reg)
(nreverse sigs-assign)
(nreverse sigs-const)
- (nreverse sigs-gparam)))))
+ (nreverse sigs-gparam)
+ (nreverse sigs-intf)))))
(eval-when-compile
;; Prevent compile warnings; these are let's, not globals
;; - we want a error when we are debugging this code if they are refed.
(defvar sigs-in)
(defvar sigs-inout)
- (defvar sigs-out))
+ (defvar sigs-out)
+ (defvar sigs-intf))
(defsubst verilog-modi-get-decls (modi)
(aref decls 6))
(defsubst verilog-decls-get-gparams (decls)
(aref decls 7))
+(defsubst verilog-decls-get-interfaces (decls)
+ (aref decls 8))
(defsubst verilog-subdecls-get-outputs (subdecls)
(aref subdecls 0))
(defsubst verilog-subdecls-get-inouts (subdecls)
(aref subdecls 1))
(defsubst verilog-subdecls-get-inputs (subdecls)
(aref subdecls 2))
+(defsubst verilog-subdecls-get-interfaces (subdecls)
+ (aref subdecls 3))
(defun verilog-read-sub-decls-sig (submoddecls comment port sig vec multidim)
(when sig
(setq port (verilog-symbol-detick-denumber port))
(setq sig (verilog-symbol-detick-denumber sig))
- (if sig (setq sig (verilog-string-replace-matches "^[---+~!|&]+" "" nil nil sig)))
+ (if sig (setq sig (verilog-string-replace-matches "^\\s-*[---+~!|&]+\\s-*" "" nil nil sig)))
(if vec (setq vec (verilog-symbol-detick-denumber vec)))
(if multidim (setq multidim (mapcar `verilog-symbol-detick-denumber multidim)))
(unless (or (not sig)
(verilog-sig-type portdata)
multidim)
sigs-in)))
+ ((setq portdata (assoc port (verilog-decls-get-interfaces submoddecls)))
+ (setq sigs-intf (cons (list sig vec (concat "To/From " comment) nil nil
+ (verilog-sig-signed portdata)
+ (verilog-sig-type portdata)
+ multidim)
+ sigs-intf)))
;; (t -- warning pin isn't defined.) ; Leave for lint tool
)))))
+(defun verilog-read-sub-decls-expr (submoddecls comment port expr)
+ "For `verilog-read-sub-decls-line', parse a subexpression and add signals."
+ ;;(message "vrsde: '%s'" expr)
+ ;; Replace special /*[....]*/ comments inserted by verilog-auto-inst-port
+ (setq expr (verilog-string-replace-matches "/\\*\\(\\[[^*]+\\]\\)\\*/" "\\1" nil nil expr))
+ ;; Remove front operators
+ (setq expr (verilog-string-replace-matches "^\\s-*[---+~!|&]+\\s-*" "" nil nil expr))
+ ;;
+ (cond
+ ;; {..., a, b} requires us to recurse on a,b
+ ((string-match "^\\s-*{\\([^{}]*\\)}\\s-*$" expr)
+ (unless verilog-auto-ignore-concat
+ (let ((mlst (split-string (match-string 1 expr) ","))
+ mstr)
+ (while (setq mstr (pop mlst))
+ (verilog-read-sub-decls-expr submoddecls comment port mstr)))))
+ (t
+ (let (sig vec multidim)
+ (cond ;; Find \signal. Final space is part of escaped signal name
+ ((string-match "^\\s-*\\(\\\\[^ \t\n\f]+\\s-\\)" expr)
+ ;;(message "vrsde-s: '%s'" (match-string 1 expr))
+ (setq sig (match-string 1 expr)
+ expr (substring expr (match-end 0))))
+ ;; Find signal
+ ((string-match "^\\s-*\\([^[({).\\]+\\)" expr)
+ ;;(message "vrsde-s: '%s'" (match-string 1 expr))
+ (setq sig (verilog-string-remove-spaces (match-string 1 expr))
+ expr (substring expr (match-end 0)))))
+ ;; Find [vector] or [multi][multi][multi][vector]
+ (while (string-match "^\\s-*\\(\\[[^]]+\\]\\)" expr)
+ ;;(message "vrsde-v: '%s'" (match-string 1 expr))
+ (when vec (setq multidim (cons vec multidim)))
+ (setq vec (match-string 1 expr)
+ expr (substring expr (match-end 0))))
+ ;; If found signal, and nothing unrecognized, add the signal
+ ;;(message "vrsde-rem: '%s'" expr)
+ (when (and sig (string-match "^\\s-*$" expr))
+ (verilog-read-sub-decls-sig submoddecls comment port sig vec multidim))))))
+
(defun verilog-read-sub-decls-line (submoddecls comment)
"For `verilog-read-sub-decls', read lines of port defs until none match anymore.
Return the list of signals found, using submodi to look up each port."
- (let (done port sig vec multidim)
+ (let (done port)
(save-excursion
(forward-line 1)
(while (not done)
(goto-char (match-end 0)))
(t
(setq port nil done t))) ;; Unknown, ignore rest of line
- ;; Get signal name
+ ;; Get signal name. Point is at the first-non-space after (
+ ;; We intentionally ignore (non-escaped) signals with .s in them
+ ;; this prevents AUTOWIRE etc from noticing hierarchical sigs.
(when port
- (setq multidim nil)
- (cond ((looking-at "\\(\\\\[^ \t\n\f]*\\)\\s-*)")
- (setq sig (concat (match-string 1) " ") ;; escaped id's need trailing space
- vec nil))
- ; We intentionally ignore (non-escaped) signals with .s in them
- ; this prevents AUTOWIRE etc from noticing hierarchical sigs.
- ((looking-at "\\([^[({).]*\\)\\s-*)")
- (setq sig (verilog-string-remove-spaces (match-string 1))
- vec nil))
- ((looking-at "\\([^[({).]*\\)\\s-*\\(\\[[^]]+\\]\\)\\s-*)")
- (setq sig (verilog-string-remove-spaces (match-string 1))
- vec (match-string 2)))
- ((looking-at "\\([^[({).]*\\)\\s-*/\\*\\(\\[[^*]+\\]\\)\\*/\\s-*)")
- (setq sig (verilog-string-remove-spaces (match-string 1))
- vec nil)
- (let ((parse (match-string 2)))
- (while (string-match "^\\(\\[[^]]+\\]\\)\\(.*\\)$" parse)
- (when vec (setq multidim (cons vec multidim)))
- (setq vec (match-string 1 parse))
- (setq parse (match-string 2 parse)))))
- ((looking-at "{\\(.*\\)}.*\\s-*)")
- (let ((mlst (split-string (match-string 1) ","))
- mstr)
- (while (setq mstr (pop mlst))
- ;;(unless noninteractive (message "sig: %s " mstr))
- (cond
- ((string-match "\\(['`a-zA-Z0-9_$]+\\)\\s-*$" mstr)
- (setq sig (verilog-string-remove-spaces (match-string 1 mstr))
- vec nil)
- ;;(unless noninteractive (message "concat sig1: %s %s" mstr (match-string 1 mstr)))
- )
- ((string-match "\\([^[({).]+\\)\\s-*\\(\\[[^]]+\\]\\)\\s-*" mstr)
- (setq sig (verilog-string-remove-spaces (match-string 1 mstr))
- vec (match-string 2 mstr))
- ;;(unless noninteractive (message "concat sig2: '%s' '%s' '%s'" mstr (match-string 1 mstr) (match-string 2 mstr)))
- )
- (t
- (setq sig nil)))
- ;; Process signals
- (verilog-read-sub-decls-sig submoddecls comment port sig vec multidim))))
- (t
- (setq sig nil)))
- ;; Process signals
- (verilog-read-sub-decls-sig submoddecls comment port sig vec multidim))
+ (cond ((looking-at "\\([^[({).\\]*\\)\\s-*)")
+ (verilog-read-sub-decls-sig
+ submoddecls comment port
+ (verilog-string-remove-spaces (match-string 1)) ; sig
+ nil nil)) ; vec multidim
+ ;;
+ ((looking-at "\\([^[({).\\]*\\)\\s-*\\(\\[[^]]+\\]\\)\\s-*)")
+ (verilog-read-sub-decls-sig
+ submoddecls comment port
+ (verilog-string-remove-spaces (match-string 1)) ; sig
+ (match-string 2) nil)) ; vec multidim
+ ;; Fastpath was above looking-at's.
+ ;; For something more complicated invoke a parser
+ ((looking-at "[^)]+")
+ (verilog-read-sub-decls-expr
+ submoddecls comment port
+ (buffer-substring
+ (point) (1- (progn (search-backward "(") ; start at (
+ (forward-sexp 1) (point)))))))) ; expr
;;
(forward-line 1)))))
(let ((end-mod-point (verilog-get-end-of-defun t))
st-point end-inst-point
;; below 3 modified by verilog-read-sub-decls-line
- sigs-out sigs-inout sigs-in)
+ sigs-out sigs-inout sigs-in sigs-intf)
(verilog-beg-of-defun)
(while (verilog-re-search-forward "\\(/\\*AUTOINST\\*/\\|\\.\\*\\)" end-mod-point t)
(save-excursion
(verilog-backward-open-paren)
(setq end-inst-point (save-excursion (forward-sexp 1) (point))
st-point (point))
+ (while (re-search-forward "\\s *(?\\s *// Interfaces" end-inst-point t)
+ (verilog-read-sub-decls-line submoddecls comment)) ;; Modifies sigs-out
+ (goto-char st-point)
(while (re-search-forward "\\s *(?\\s *// Outputs" end-inst-point t)
(verilog-read-sub-decls-line submoddecls comment)) ;; Modifies sigs-out
(goto-char st-point)
- (while (re-search-forward "\\s *// Inouts" end-inst-point t)
+ (while (re-search-forward "\\s *(?\\s *// Inouts" end-inst-point t)
(verilog-read-sub-decls-line submoddecls comment)) ;; Modifies sigs-inout
(goto-char st-point)
- (while (re-search-forward "\\s *// Inputs" end-inst-point t)
+ (while (re-search-forward "\\s *(?\\s *// Inputs" end-inst-point t)
(verilog-read-sub-decls-line submoddecls comment)) ;; Modifies sigs-in
)))))
;; Combine duplicate bits
;;(setq rr (vector sigs-out sigs-inout sigs-in))
(vector (verilog-signals-combine-bus (nreverse sigs-out))
(verilog-signals-combine-bus (nreverse sigs-inout))
- (verilog-signals-combine-bus (nreverse sigs-in))))))
+ (verilog-signals-combine-bus (nreverse sigs-in))
+ (verilog-signals-combine-bus (nreverse sigs-intf))))))
(defun verilog-read-inst-pins ()
"Return an array of [ pins ] for the current instantiation at point.
(point)))
sig-last-tolk sig-tolk
sig-tolk nil)
- ;;(if dbg (setq dbg (concat dbg (format "\tPt=%S %S\trv=%S in=%S ee=%S\n" (point) keywd rvalue ignore-next end-else-check))))
+ ;;(if dbg (setq dbg (concat dbg (format "\tPt=%S %S\trv=%S in=%S ee=%S gs=%S\n" (point) keywd rvalue ignore-next end-else-check got-sig))))
(cond
((equal keywd "\"")
(or (re-search-forward "[^\\]\"" nil t)
(setq end-else-check t))
(forward-char 1))
((equal keywd "'")
- (if (looking-at "'s?[hdxbo][0-9a-fA-F_xz? \t]*")
+ (if (looking-at "'[sS]?[hdxboHDXBO]?[ \t]*[0-9a-fA-F_xzXZ?]+")
(goto-char (match-end 0))
(forward-char 1)))
((equal keywd ":") ;; Case statement, begin/end label, x?y:z
(setq ignore-next nil rvalue nil))
((equal "?" exit-keywd) ;; x?y:z rvalue
) ;; NOP
+ ((equal "]" exit-keywd) ;; [x:y] rvalue
+ ) ;; NOP
(got-sig ;; label: statement
(setq ignore-next nil rvalue semi-rvalue got-sig nil))
((not rvalue) ;; begin label
(setq ignore-next t rvalue nil)))
(forward-char 1))
((equal keywd "=")
- (if (eq (char-before) ?< )
+ (if (and (eq (char-before) ?< )
+ (not rvalue))
(setq uses-delayed 1))
(setq ignore-next nil rvalue t)
(forward-char 1))
uses-delayed) ;; Found signal/rvalue; push if not function
(search-forward ")")
(verilog-read-always-signals-recurse nil nil nil)
- ;;(if dbg (save-excursion (set-buffer (get-buffer-create "*vl-dbg*")) (delete-region (point-min) (point-max)) (insert dbg) (setq dbg "")))
+ ;;(if dbg (with-current-buffer (get-buffer-create "*vl-dbg*")) (delete-region (point-min) (point-max)) (insert dbg) (setq dbg ""))
;; Return what was found
(list sigs-out nil sigs-in uses-delayed))))
(goto-char (match-end 0))
;; Parse "REGEXP"
;; We reserve @"..." for future lisp expressions that evaluate once-per-AUTOINST
- (when (looking-at "\\s-*\"\\([^\"]*)\\)\"")
+ (when (looking-at "\\s-*\"\\([^\"]*\\)\"")
(setq tpl-regexp (match-string 1))
(goto-char (match-end 0)))
(search-forward "(")
(defun verilog-set-define (defname defvalue &optional buffer enumname)
"Set the definition DEFNAME to the DEFVALUE in the given BUFFER.
Optionally associate it with the specified enumeration ENUMNAME."
- (save-excursion
- (set-buffer (or buffer (current-buffer)))
+ (with-current-buffer (or buffer (current-buffer))
(let ((mac (intern (concat "vh-" defname))))
;;(message "Define %s=%s" defname defvalue) (sleep-for 1)
;; Need to define to a constant if no value given
- (set (make-variable-buffer-local mac)
+ (set (make-local-variable mac)
(if (equal defvalue "") "1" defvalue)))
(if enumname
(let ((enumvar (intern (concat "venum-" enumname))))
;;(message "Define %s=%s" defname defvalue) (sleep-for 1)
- (make-variable-buffer-local enumvar)
+ (unless (boundp enumvar) (set enumvar nil))
+ (make-local-variable enumvar)
(add-to-list enumvar defname)))))
(defun verilog-read-defines (&optional filename recurse subcall)
;; Hack: Read parameters
(goto-char (point-min))
(while (re-search-forward
- "^\\s-*\\(parameter\\|localparam\\)\\(\\(\\s-*\\[[^]]*\\]\\|\\)\\s-+\\([a-zA-Z0-9_$]+\\)\\s-*=\\s-*\\([^;,]*\\),?\\|\\)\\s-*" nil t)
- (let ((var (match-string-no-properties 4))
- (val (match-string-no-properties 5))
- enumname)
+ "^\\s-*\\(parameter\\|localparam\\)\\(\\s-*\\[[^]]*\\]\\)?\\s-+" nil t)
+ (let (enumname)
;; The primary way of getting defines is verilog-read-decls
;; However, that isn't called yet for included files, so we'll add another scheme
(if (looking-at "[^\n]*synopsys\\s +enum\\s +\\([a-zA-Z0-9_]+\\)")
(setq enumname (match-string-no-properties 1)))
- (if var
- (verilog-set-define var val origbuf enumname))
(forward-comment 999)
(while (looking-at "\\s-*,?\\s-*\\([a-zA-Z0-9_$]+\\)\\s-*=\\s-*\\([^;,]*\\),?\\s-*")
(verilog-set-define (match-string-no-properties 1) (match-string-no-properties 2) origbuf enumname)
((or (string-match "^\\+incdir\\+\\(.*\\)" arg) ;; +incdir+dir
(string-match "^-I\\(.*\\)" arg)) ;; -Idir
(verilog-add-list-unique `verilog-library-directories
- (match-string 1 arg)))
+ (match-string 1 (substitute-in-file-name arg))))
;; Ignore
((equal "+librescan" arg))
((string-match "^-U\\(.*\\)" arg)) ;; -Udefine
;; Second parameters
((equal next-param "-f")
(setq next-param nil)
- (verilog-getopt-file arg))
+ (verilog-getopt-file (substitute-in-file-name arg)))
((equal next-param "-v")
(setq next-param nil)
- (verilog-add-list-unique `verilog-library-files arg))
+ (verilog-add-list-unique `verilog-library-files
+ (substitute-in-file-name arg)))
((equal next-param "-y")
(setq next-param nil)
- (verilog-add-list-unique `verilog-library-directories arg))
+ (verilog-add-list-unique `verilog-library-directories
+ (substitute-in-file-name arg)))
;; Filename
((string-match "^[^-+]" arg)
- (verilog-add-list-unique `verilog-library-files arg))
+ (verilog-add-list-unique `verilog-library-files
+ (substitute-in-file-name arg)))
;; Default - ignore; no warning
))))
;;(verilog-getopt (list "+libext+.a+.b" "+incdir+foodir" "+define+a+aval" "-f" "otherf" "-v" "library" "-y" "dir"))
(forward-line 1)
(when (string-match "//" line)
(setq line (substring line 0 (match-beginning 0))))
- (save-excursion
- (set-buffer orig-buffer) ; Variables are buffer-local, so need right context.
+ (with-current-buffer orig-buffer ; Variables are buffer-local, so need right context.
(verilog-getopt line))))))
(defun verilog-getopt-flags ()
(and (fboundp 'vc-backend)
(vc-backend filename)))
(let (pt)
- (save-excursion
- (set-buffer (find-file-noselect filename))
- (goto-char (point-min))
- (while (and
- ;; It may be tempting to look for verilog-defun-re, don't, it slows things down a lot!
- (verilog-re-search-forward-quick "\\<module\\>" nil t)
- (verilog-re-search-forward-quick "[(;]" nil t))
- (if (equal module (verilog-read-module-name))
- (setq pt (point))))
- pt))))
+ (with-current-buffer (find-file-noselect filename)
+ (save-excursion
+ (goto-char (point-min))
+ (while (and
+ ;; It may be tempting to look for verilog-defun-re,
+ ;; don't, it slows things down a lot!
+ (verilog-re-search-forward-quick "\\<module\\>" nil t)
+ (verilog-re-search-forward-quick "[(;]" nil t))
+ (if (equal module (verilog-read-module-name))
+ (setq pt (point))))
+ pt)))))
(defun verilog-is-number (symbol)
"Return true if SYMBOL is number-like."
(let ((ok t) symbol val)
(while (and ok (string-match "`\\([a-zA-Z0-9_]+\\)" text))
(setq symbol (match-string 1 text))
- (message symbol)
+ ;;(message symbol)
(cond ((and
(boundp (intern (concat "vh-" symbol)))
;; Emacs has a bug where boundp on a buffer-local
dirlist))
;;(verilog-expand-dirnames (list "." ".." "nonexist" "../*" "/home/wsnyder/*/v"))
-(defun verilog-library-filenames (filename current &optional check-ext)
+(defun verilog-library-filenames (filename &optional current check-ext)
"Return a search path to find the given FILENAME or module name.
-Uses the CURRENT filename, `verilog-library-directories' and
-`verilog-library-extensions' variables to build the path.
-With optional CHECK-EXT also check `verilog-library-extensions'."
+Uses the optional CURRENT filename or buffer-file-name, plus
+`verilog-library-directories' and `verilog-library-extensions'
+variables to build the path. With optional CHECK-EXT also check
+`verilog-library-extensions'."
+ (unless current (setq current (buffer-file-name)))
(unless verilog-dir-cache-preserving
(setq verilog-dir-cache-lib-filenames nil))
(let* ((cache-key (list filename current check-ext))
(nth 3 fass))
(t
;; Read from file
- ;; Clear then restore any hilighting to make emacs19 happy
+ ;; Clear then restore any highlighting to make emacs19 happy
(let ((fontlocked (when (and (boundp 'font-lock-mode)
font-lock-mode)
- (font-lock-mode nil)
+ (font-lock-mode 0)
t))
func-returns)
(setq func-returns (funcall function))
(defun verilog-signals-matching-regexp (in-list regexp)
"Return all signals in IN-LIST matching the given REGEXP, if non-nil."
- (if (not regexp)
+ (if (or (not regexp) (equal regexp ""))
in-list
(let (out-list)
(while in-list
(defun verilog-signals-not-matching-regexp (in-list regexp)
"Return all signals in IN-LIST not matching the given REGEXP, if non-nil."
- (if (not regexp)
+ (if (or (not regexp) (equal regexp ""))
in-list
(let (out-list)
(while in-list
(setq in-list (cdr in-list)))
(nreverse out-list))))
+(defun verilog-signals-matching-dir-re (in-list decl-type regexp)
+ "Return all signals in IN-LIST matching the given DECL-TYPE and REGEXP,
+if non-nil."
+ (if (or (not regexp) (equal regexp ""))
+ in-list
+ (let (out-list to-match)
+ (while in-list
+ ;; Note verilog-insert-one-definition matches on this order
+ (setq to-match (concat
+ decl-type
+ " " (verilog-sig-signed (car in-list))
+ " " (verilog-sig-multidim (car in-list))
+ (verilog-sig-bits (car in-list))))
+ (if (string-match regexp to-match)
+ (setq out-list (cons (car in-list) out-list)))
+ (setq in-list (cdr in-list)))
+ (nreverse out-list))))
+
;; Combined
(defun verilog-decls-get-signals (decls)
(append
"Print out a definition for SIG of the given TYPE,
with appropriate INDENT-PT indentation."
(indent-to indent-pt)
+ ;; Note verilog-signals-matching-dir-re matches on this order
(insert type)
+ (when (verilog-sig-modport sig)
+ (insert "." (verilog-sig-modport sig)))
(when (verilog-sig-signed sig)
(insert " " (verilog-sig-signed sig)))
(when (verilog-sig-multidim sig)
;; Want "type x" or "output type x", not "wire type x"
(cond ((verilog-sig-type sig)
(concat
- (if (not (equal direction "wire"))
+ (if (not (member direction '("wire" "interface")))
(concat direction " "))
(verilog-sig-type sig)))
(t direction))
;;(let ((indent-pt 10)) (verilog-insert-indent "hello\n" "addon" "there\n"))
(defun verilog-repair-open-comma ()
- "If backwards-from-point is other than a open parenthesis insert comma."
+ "Insert comma if previous argument is other than a open parenthesis or endif."
+ ;; We can't just search backward for ) as it might be inside another expression.
+ ;; Also want "`ifdef X input foo `endif" to just leave things to the human to deal with
(save-excursion
(verilog-backward-syntactic-ws)
- (when (save-excursion
- (backward-char 1)
- (and (not (looking-at "[(,]"))
- (progn
- (verilog-re-search-backward "[(`]" nil t)
- (looking-at "("))))
- (insert ","))))
+ (when (and (not (save-excursion ;; Not beginning (, or existing ,
+ (backward-char 1)
+ (looking-at "[(,]")))
+ (not (save-excursion ;; Not `endif, or user define
+ (backward-char 1)
+ (skip-chars-backward "[a-zA-Z0-9_`]")
+ (looking-at "`"))))
+ (insert ","))))
(defun verilog-repair-close-comma ()
"If point is at a comma followed by a close parenthesis, fix it.
(setq range-exp (match-string 1 range-exp)))
(cond ((not range-exp)
"1")
+ ;; [#:#] We can compute a numeric result
((string-match "^\\s *\\([0-9]+\\)\\s *:\\s *\\([0-9]+\\)\\s *$"
range-exp)
(int-to-string
(1+ (abs (- (string-to-number (match-string 1 range-exp))
(string-to-number (match-string 2 range-exp)))))))
+ ;; [PARAM-1:0] can just return PARAM
+ ((string-match "^\\s *\\([a-zA-Z_][a-zA-Z0-9_]*\\)\\s *-\\s *1\\s *:\\s *0\\s *$" range-exp)
+ (match-string 1 range-exp))
+ ;; [arbitrary] need math
((string-match "^\\(.*\\)\\s *:\\s *\\(.*\\)\\s *$" range-exp)
(concat "(1+(" (match-string 1 range-exp) ")"
(if (equal "0" (match-string 2 range-exp))
(last-pass ""))
(while (not (equal last-pass out))
(setq last-pass out)
- (while (string-match "(\\<\\([0-9]+\\)\\>)" out)
+ (while (string-match "(\\<\\([0-9A-Z-az_]+\\)\\>)" out)
(setq out (replace-match "\\1" nil nil out)))
(while (string-match "\\<\\([0-9]+\\)\\>\\s *\\+\\s *\\<\\([0-9]+\\)\\>" out)
- (setq out (replace-match
+ (setq out (replace-match
(int-to-string (+ (string-to-number (match-string 1 out))
(string-to-number (match-string 2 out))))
nil nil out)))
(while (string-match "\\<\\([0-9]+\\)\\>\\s *\\-\\s *\\<\\([0-9]+\\)\\>" out)
- (setq out (replace-match
+ (setq out (replace-match
(int-to-string (- (string-to-number (match-string 1 out))
(string-to-number (match-string 2 out))))
nil nil out))))
(delete-region pt (point))
(forward-line 1))))
+(defun verilog-delete-empty-auto-pair ()
+ "Delete begin/end auto pair at point, if empty."
+ (forward-line 0)
+ (when (looking-at (concat "\\s-*// Beginning of automatic.*\n"
+ "\\s-*// End of automatics\n"))
+ (delete-region (point) (save-excursion (forward-line 2) (point)))))
+
(defun verilog-forward-close-paren ()
"Find the close parenthesis that match the current point.
Ignore other close parenthesis with matching open parens."
"Return if a .* AUTOINST is safe to delete or expand.
It was created by the AUTOS themselves, or by the user."
(and verilog-auto-star-expand
- (looking-at "[ \t\n\f,]*\\([)]\\|// \\(Outputs\\|Inouts\\|Inputs\\)\\)")))
+ (looking-at "[ \t\n\f,]*\\([)]\\|// \\(Outputs\\|Inouts\\|Inputs\\|Interfaces\\)\\)")))
(defun verilog-delete-auto-star-all ()
"Delete a .* AUTOINST, if it is safe."
(save-excursion
(while (progn
(forward-line -1)
- (looking-at "\\s *//\\s *\\(Outputs\\|Inouts\\|Inputs\\)\n"))
+ (looking-at "\\s *//\\s *\\(Outputs\\|Inouts\\|Inputs\\|Interfaces\\)\n"))
(delete-region (match-beginning 0) (match-end 0))))
;; If it is simple, we can put the ); on the same line as the last text
(let ((rtn-pt (point)))
(run-hooks 'verilog-before-delete-auto-hook)
;; Remove those that have multi-line insertions, possibly with parameters
- (verilog-auto-re-search-do
+ (verilog-auto-re-search-do
(concat "/\\*"
(eval-when-compile
(verilog-regexp-words
`("AUTOASCIIENUM" "AUTOCONCATCOMMENT" "AUTODEFINEVALUE"
- "AUTOINOUT" "AUTOINOUTMODULE" "AUTOINPUT" "AUTOOUTPUT"
- "AUTOOUTPUTEVERY"
+ "AUTOINOUT" "AUTOINOUTCOMP" "AUTOINOUTMODULE"
+ "AUTOINPUT" "AUTOINSERTLISP" "AUTOOUTPUT" "AUTOOUTPUTEVERY"
"AUTOREG" "AUTOREGINPUT" "AUTORESET" "AUTOTIEOFF"
"AUTOUNUSED" "AUTOWIRE")))
- "\\(\\|([^)]*)\\|(\"[^\"]*\")\\)" ; Optional parens or quoted parameter
+ ;; Optional parens or quoted parameter or .* for (((...)))
+ "\\(\\|([^)]*)\\|(\"[^\"]*\")\\).*?"
"\\*/")
'verilog-delete-autos-lined)
;; Remove those that are in parenthesis
(let ((curlocal (verilog-auto-read-locals)))
(when (or force (not (equal verilog-auto-last-file-locals curlocal)))
(setq verilog-auto-last-file-locals curlocal)
- ;; Note this may cause this function to be recursively invoked.
+ ;; Note this may cause this function to be recursively invoked,
+ ;; because hack-local-variables may call (verilog-mode)
;; The above when statement will prevent it from recursing forever.
(hack-local-variables)
t)))
"Print a list of ports for a AUTOINST.
Takes SIGS list, adds MESSAGE to front and inserts each at INDENT-PT."
(when sigs
+ (when verilog-auto-arg-sort
+ (setq sigs (sort (copy-alist sigs) `verilog-signals-sort-compare)))
(insert "\n")
(indent-to indent-pt)
(insert message)
output o;
endmodule
+The argument declarations may be printed in declaration order to best suit
+order based instantiations, or alphabetically, based on the
+`verilog-auto-arg-sort' variable.
+
Any ports declared between the ( and /*AUTOARG*/ are presumed to be
predeclared and are not redeclared by AUTOARG. AUTOARG will make a
conservative guess on adding a comma for the first signal, if you have
(defvar vl-cell-type nil "See `verilog-auto-inst'.") ; Prevent compile warning
(defvar vl-cell-name nil "See `verilog-auto-inst'.") ; Prevent compile warning
+(defvar vl-modport nil "See `verilog-auto-inst'.") ; Prevent compile warning
(defvar vl-name nil "See `verilog-auto-inst'.") ; Prevent compile warning
(defvar vl-width nil "See `verilog-auto-inst'.") ; Prevent compile warning
(defvar vl-dir nil "See `verilog-auto-inst'.") ; Prevent compile warning
+(defvar vl-bits nil "See `verilog-auto-inst'.") ; Prevent compile warning
+(defvar vl-mbits nil "See `verilog-auto-inst'.") ; Prevent compile warning
(defun verilog-auto-inst-port (port-st indent-pt tpl-list tpl-num for-star par-values)
"Print out a instantiation connection for this PORT-ST.
;; vl-* are documented for user use
(vl-name (verilog-sig-name port-st))
(vl-width (verilog-sig-width port-st))
+ (vl-modport (verilog-sig-modport port-st))
+ (vl-mbits (if (verilog-sig-multidim port-st)
+ (verilog-sig-multidim-string port-st) ""))
(vl-bits (if (or verilog-auto-inst-vector
(not (assoc port vector-skip-list))
(not (equal (verilog-sig-bits port-st)
(verilog-sig-bits (assoc port vector-skip-list)))))
(or (verilog-sig-bits port-st) "")
""))
- ;; Default if not found
- (tpl-net (if (verilog-sig-multidim port-st)
- (concat port "/*" (verilog-sig-multidim-string port-st)
- vl-bits "*/")
- (concat port vl-bits)))
(case-fold-search nil)
- (check-values par-values))
+ (check-values par-values)
+ tpl-net)
;; Replace parameters in bit-width
(when (and check-values
(not (equal vl-bits "")))
t t vl-bits)
check-values (cdr check-values)))
(setq vl-bits (verilog-simplify-range-expression vl-bits))) ; Not in the loop for speed
+ ;; Default net value if not found
+ (setq tpl-net (concat port
+ (if vl-modport (concat "." vl-modport) "")
+ (if (verilog-sig-multidim port-st)
+ (concat "/*" (verilog-sig-multidim-string port-st)
+ vl-bits "*/")
+ (concat vl-bits))))
;; Find template
(cond (tpl-ass ; Template of exact port name
(setq tpl-net (nth 1 tpl-ass)))
"Insert , etc before first ever port in this instant, as part of \\[verilog-auto-inst]."
;; Do we need a trailing comma?
;; There maybe a ifdef or something similar before us. What a mess. Thus
- ;; to avoid trouble we only insert on preceeding ) or *.
+ ;; to avoid trouble we only insert on preceding ) or *.
;; Insert first port on new line
(insert "\n") ;; Must insert before search, so point will move forward if insert comma
(save-excursion
Unless you are instantiating a module multiple times, or the module is
something trivial like an adder, DO NOT CHANGE SIGNAL NAMES ACROSS HIERARCHY.
It just makes for unmaintainable code. To sanitize signal names, try
- vrename from http://www.veripool.com.
+ vrename from URL `http://www.veripool.org'.
When you need to violate this suggestion there are two ways to list
exceptions, placing them before the AUTOINST, or using templates.
inside the first set of \\( \\). Thus pci_req2_l becomes pci_req_jtag_[2].
Since \\([0-9]+\\) is so common and ugly to read, a @ in the port name
- does the same thing. (Note a @ in the connection/replacement text is
+ does the same thing. (Note a @ in the connection/replacement text is
completely different -- still use \\1 there!) Thus this is the same as
the above template:
quotes will be evaluated as a Lisp expression, with @ replaced by the
instantiation number. The MAPVALIDP1X example above would put @+1 modulo
4 into the brackets. Quote all double-quotes inside the expression with
- a leading backslash (\\\"). There are special variables defined that are
- useful in these Lisp functions:
+ a leading backslash (\\\"...\\\"); or if the Lisp template is also a
+ regexp template backslash the backslash quote (\\\\\"...\\\\\").
+
+ There are special variables defined that are useful in these
+ Lisp functions:
vl-name Name portion of the input/output port.
vl-bits Bus bits portion of the input/output port ('[2:0]').
+ vl-mbits Multidimensional array bits for port ('[2:0][3:0]').
vl-width Width of the input/output port ('3' for [2:0]).
May be a (...) expression if bits isn't a constant.
- vl-dir Direction of the pin input/output/inout.
+ vl-dir Direction of the pin input/output/inout/interface.
+ vl-modport The modport, if an interface with a modport.
vl-cell-type Module name/type of the cell ('InstModule').
vl-cell-name Instance name of the cell ('instName').
will evaluate any Lisp expression inside the parenthesis between the
beginning of the buffer and the point of the AUTOINST. This allows
functions to be defined or variables to be changed between instantiations.
+ (See also `verilog-auto-insert-lisp' if you want the output from your
+ lisp function to be inserted.)
Note that when using lisp expressions errors may occur when @ is not a
number; you may need to use the standard Emacs Lisp functions
`number-to-string' and `string-to-number'.
After the evaluation is completed, @ substitution and [] substitution
- occur."
+ occur.
+
+For more information see the \\[verilog-faq] and forums at URL
+`http://www.veripool.org'."
(save-excursion
;; Find beginning
(let* ((pt (point))
"")
tpl-list (aref tpl-info 1)))
;; Find submodule's signals and dump
+ (let ((sig-list (verilog-signals-not-in
+ (verilog-decls-get-interfaces submoddecls)
+ skip-pins))
+ (vl-dir "interface"))
+ (when sig-list
+ (when (not did-first) (verilog-auto-inst-first) (setq did-first t))
+ (indent-to indent-pt)
+ ;; Note these are searched for in verilog-read-sub-decls.
+ (insert "// Interfaces\n")
+ (mapc (lambda (port)
+ (verilog-auto-inst-port port indent-pt
+ tpl-list tpl-num for-star par-values))
+ sig-list)))
(let ((sig-list (verilog-signals-not-in
(verilog-decls-get-outputs submoddecls)
skip-pins))
(when sig-list
(when (not did-first) (verilog-auto-inst-first) (setq did-first t))
(indent-to indent-pt)
- ;; Note these are searched for in verilog-read-sub-decls.
(insert "// Outputs\n")
(mapc (lambda (port)
(verilog-auto-inst-port port indent-pt
(setq pnt (point))
(verilog-pretty-declarations quiet)
(goto-char pnt)
- (verilog-pretty-expr "//"))))))
+ (verilog-pretty-expr t "//"))))))
(defun verilog-auto-output (&optional with-params)
"Expand AUTOOUTPUT statements, as part of \\[verilog-auto].
(verilog-insert-indent "// End of automatics\n"))
(when v2k (verilog-repair-close-comma)))))
-(defun verilog-auto-inout-module ()
+(defun verilog-auto-inout-module (&optional complement)
"Expand AUTOINOUTMODULE statements, as part of \\[verilog-auto].
Take input/output/inout statements from the specified module and insert
into the current module. This is useful for making null templates and
module ExampShell (/*AUTOARG*/i,o,io)
/*AUTOINOUTMODULE(\"ExampMain\")*/
// Beginning of automatic in/out/inouts (from specific module)
- input i;
output o;
inout io;
+ input i;
// End of automatics
endmodule
signals matching the regular expression will be included. For example the
same expansion will result from only extracting signals starting with i:
- /*AUTOINOUTMODULE(\"ExampMain\",\"^i\")*/"
+ /*AUTOINOUTMODULE(\"ExampMain\",\"^i\")*/
+
+You may also provide an optional second regular expression, in
+which case only signals which have that pin direction and data
+type will be included. This matches against everything before
+the signal name in the declaration, for example against
+\"input\" (single bit), \"output logic\" (direction and type) or
+\"output [1:0]\" (direction and implicit type). You also
+probably want to skip spaces in your regexp.
+
+For example, the below will result in matching the output \"o\"
+against the previous example's module:
+
+ /*AUTOINOUTMODULE(\"ExampMain\",\"\",\"^output.*\")*/"
(save-excursion
- (let* ((params (verilog-read-auto-params 1 2))
+ (let* ((params (verilog-read-auto-params 1 3))
(submod (nth 0 params))
(regexp (nth 1 params))
+ (direction-re (nth 2 params))
submodi)
;; Lookup position, etc of co-module
;; Note this may raise an error
(moddecls (verilog-modi-get-decls modi))
(submoddecls (verilog-modi-get-decls submodi))
(sig-list-i (verilog-signals-not-in
- (verilog-decls-get-inputs submoddecls)
+ (if complement
+ (verilog-decls-get-outputs submoddecls)
+ (verilog-decls-get-inputs submoddecls))
(append (verilog-decls-get-inputs moddecls))))
(sig-list-o (verilog-signals-not-in
- (verilog-decls-get-outputs submoddecls)
+ (if complement
+ (verilog-decls-get-inputs submoddecls)
+ (verilog-decls-get-outputs submoddecls))
(append (verilog-decls-get-outputs moddecls))))
(sig-list-io (verilog-signals-not-in
(verilog-decls-get-inouts submoddecls)
- (append (verilog-decls-get-inouts moddecls)))))
+ (append (verilog-decls-get-inouts moddecls))))
+ (sig-list-if (verilog-signals-not-in
+ (verilog-decls-get-interfaces submoddecls)
+ (append (verilog-decls-get-interfaces moddecls)))))
(forward-line 1)
- (when regexp
- (setq sig-list-i (verilog-signals-matching-regexp
- sig-list-i regexp)
- sig-list-o (verilog-signals-matching-regexp
- sig-list-o regexp)
- sig-list-io (verilog-signals-matching-regexp
- sig-list-io regexp)))
+ (setq sig-list-i (verilog-signals-matching-dir-re
+ (verilog-signals-matching-regexp sig-list-i regexp)
+ "input" direction-re)
+ sig-list-o (verilog-signals-matching-dir-re
+ (verilog-signals-matching-regexp sig-list-o regexp)
+ "output" direction-re)
+ sig-list-io (verilog-signals-matching-dir-re
+ (verilog-signals-matching-regexp sig-list-io regexp)
+ "inout" direction-re)
+ sig-list-if (verilog-signals-matching-dir-re
+ (verilog-signals-matching-regexp sig-list-if regexp)
+ "interface" direction-re))
(when v2k (verilog-repair-open-comma))
(when (or sig-list-i sig-list-o sig-list-io)
(verilog-insert-indent "// Beginning of automatic in/out/inouts (from specific module)\n")
(verilog-insert-definition sig-list-o "output" indent-pt v2k t)
(verilog-insert-definition sig-list-io "inout" indent-pt v2k t)
(verilog-insert-definition sig-list-i "input" indent-pt v2k t)
+ (verilog-insert-definition sig-list-if "interface" indent-pt v2k t)
(verilog-modi-cache-add-inputs modi sig-list-i)
(verilog-modi-cache-add-outputs modi sig-list-o)
(verilog-modi-cache-add-inouts modi sig-list-io)
(verilog-insert-indent "// End of automatics\n"))
(when v2k (verilog-repair-close-comma)))))))
+(defun verilog-auto-inout-comp ()
+ "Expand AUTOINOUTCOMP statements, as part of \\[verilog-auto].
+Take input/output/inout statements from the specified module and
+insert the inverse into the current module (inputs become outputs
+and vice-versa.) This is useful for making test and stimulus
+modules which need to have complementing I/O with another module.
+Any I/O which are already defined in this module will not be
+redefined.
+
+Limitations:
+ If placed inside the parenthesis of a module declaration, it creates
+ Verilog 2001 style, else uses Verilog 1995 style.
+
+ Concatenation and outputting partial busses is not supported.
+
+ Module names must be resolvable to filenames. See `verilog-auto-inst'.
+
+ Signals are not inserted in the same order as in the original module,
+ though they will appear to be in the same order to a AUTOINST
+ instantiating either module.
+
+An example:
+
+ module ExampShell (/*AUTOARG*/)
+ /*AUTOINOUTCOMP(\"ExampMain\")*/
+ endmodule
+
+ module ExampMain (i,o,io)
+ input i;
+ output o;
+ inout io;
+ endmodule
+
+Typing \\[verilog-auto] will make this into:
+
+ module ExampShell (/*AUTOARG*/i,o,io)
+ /*AUTOINOUTCOMP(\"ExampMain\")*/
+ // Beginning of automatic in/out/inouts (from specific module)
+ output i;
+ inout io;
+ input o;
+ // End of automatics
+ endmodule
+
+You may also provide an optional regular expression, in which case only
+signals matching the regular expression will be included. For example the
+same expansion will result from only extracting signals starting with i:
+
+ /*AUTOINOUTCOMP(\"ExampMain\",\"^i\")*/"
+ (verilog-auto-inout-module t))
+
+(defun verilog-auto-insert-lisp ()
+ "Expand AUTOINSERTLISP statements, as part of \\[verilog-auto].
+The Lisp code provided is called, and the Lisp code calls
+`insert` to insert text into the current file beginning on the
+line after the AUTOINSERTLISP.
+
+See also AUTO_LISP, which takes a Lisp expression and evaluates
+it during `verilog-auto-inst' but does not insert any text.
+
+An example:
+
+ module ExampInsertLisp;
+ /*AUTOINSERTLISP(my-verilog-insert-hello \"world\")*/
+ endmodule
+
+ // For this example we declare the function in the
+ // module's file itself. Often you'd define it instead
+ // in a site-start.el or .emacs file.
+ /*
+ Local Variables:
+ eval:
+ (defun my-verilog-insert-hello (who)
+ (insert (concat \"initial $write(\\\"hello \" who \"\\\");\\n\")))
+ End:
+ */
+
+Typing \\[verilog-auto] will call my-verilog-insert-hello and
+expand the above into:
+
+ // Beginning of automatic insert lisp
+ initial $write(\"hello world\");
+ // End of automatics
+
+You can also call an external program and insert the returned
+text:
+
+ /*AUTOINSERTLISP(insert (shell-command-to-string \"echo //hello\"))*/
+ // Beginning of automatic insert lisp
+ //hello
+ // End of automatics"
+ (save-excursion
+ ;; Point is at end of /*AUTO...*/
+ (let* ((indent-pt (current-indentation))
+ (cmd-end-pt (save-excursion (search-backward ")")
+ (forward-char)
+ (point))) ;; Closing paren
+ (cmd-beg-pt (save-excursion (goto-char cmd-end-pt)
+ (backward-sexp 1)
+ (point))) ;; Beginning paren
+ (cmd (buffer-substring-no-properties cmd-beg-pt cmd-end-pt)))
+ (forward-line 1)
+ ;; Some commands don't move point (like insert-file) so we always
+ ;; add the begin/end comments, then delete it if not needed
+ (verilog-insert-indent "// Beginning of automatic insert lisp\n")
+ (verilog-insert-indent "// End of automatics\n")
+ (forward-line -1)
+ (eval (read cmd))
+ (forward-line -1)
+ (verilog-delete-empty-auto-pair))))
+
(defun verilog-auto-sense-sigs (moddecls presense-sigs)
"Return list of signals for current AUTOSENSE block."
(let* ((sigss (verilog-read-always-signals))
Limitations:
AUTORESET will not clear memories.
- AUTORESET uses <= if there are any <= in the block, else it uses =.
+ AUTORESET uses <= if there are any <= assignments in the block,
+ else it uses =.
/*AUTORESET*/ presumes that any signals mentioned between the previous
begin/case/if statement and the AUTORESET comment are being reset manually
Finally, a AUTOASCIIENUM command is used.
The first parameter is the name of the signal to be decoded.
+ If and only if the first parameter width is 2^(number of states
+ in enum) and does NOT match the width of the enum, the signal
+ is assumed to be a one hot decode. Otherwise, it's a normal
+ encoded state vector.
The second parameter is the name to store the ASCII code into. For the
signal foo, I suggest the name _foo__ascii, where the leading _ indicates
SM_SEND = 3'b001,
SM_WAIT1 = 3'b010;
//== State variables
- reg [2:0] /* synopsys enum state_info */
- state_r; /* synopsys state_vector state_r */
- reg [2:0] /* synopsys enum state_info */
- state_e1;
-
- //== ASCII state decoding
+ reg [2:0] /* synopsys enum state_info */
+ state_r; /* synopsys state_vector state_r */
+ reg [2:0] /* synopsys enum state_info */
+ state_e1;
/*AUTOASCIIENUM(\"state_r\", \"state_ascii_r\", \"SM_\")*/
(undecode-enum (or (verilog-sig-enum undecode-sig)
(error "%s: Signal %s does not have a enum tag" (verilog-point-text) undecode-name)))
;;
- (enum-sigs (or (verilog-signals-matching-enum sig-list-consts undecode-enum)
- (error "%s: No state definitions for %s" (verilog-point-text) undecode-enum)))
+ (enum-sigs (verilog-signals-not-in
+ (or (verilog-signals-matching-enum sig-list-consts undecode-enum)
+ (error "%s: No state definitions for %s" (verilog-point-text) undecode-enum))
+ nil))
;;
- (enum-chars 0)
+ (one-hot (and ;; width(enum) != width(sig)
+ (or (not (verilog-sig-bits (car enum-sigs)))
+ (not (equal (verilog-sig-width (car enum-sigs))
+ (verilog-sig-width undecode-sig))))
+ ;; count(enums) == width(sig)
+ (equal (number-to-string (length enum-sigs))
+ (verilog-sig-width undecode-sig))))
+ (enum-chars 0)
(ascii-chars 0))
;;
;; Find number of ascii chars needed
(setq indent-pt (+ indent-pt verilog-case-indent))
;;
(let ((tmp-sigs enum-sigs)
- (chrfmt (format "%%-%ds %s = \"%%-%ds\";\n" (1+ (max 8 enum-chars))
+ (chrfmt (format "%%-%ds %s = \"%%-%ds\";\n"
+ (+ (if one-hot 9 1) (max 8 enum-chars))
ascii-name ascii-chars))
(errname (substring "%Error" 0 (min 6 ascii-chars))))
(while tmp-sigs
(verilog-insert-indent
- (format chrfmt (concat (verilog-sig-name (car tmp-sigs)) ":")
- (verilog-enum-ascii (verilog-sig-name (car tmp-sigs))
- elim-regexp)))
+ (concat
+ (format chrfmt
+ (concat (if one-hot "(")
+ (if one-hot (verilog-sig-width undecode-sig))
+ ;; We use a shift instead of var[index]
+ ;; so that a non-one hot value will show as error.
+ (if one-hot "'b1<<")
+ (verilog-sig-name (car tmp-sigs))
+ (if one-hot ")") ":")
+ (verilog-enum-ascii (verilog-sig-name (car tmp-sigs))
+ elim-regexp))))
(setq tmp-sigs (cdr tmp-sigs)))
(verilog-insert-indent (format chrfmt "default:" errname)))
;;
Using \\[describe-function], see also:
`verilog-auto-arg' for AUTOARG module instantiations
`verilog-auto-ascii-enum' for AUTOASCIIENUM enumeration decoding
+ `verilog-auto-inout-comp' for AUTOINOUTCOMP copy complemented i/o
`verilog-auto-inout-module' for AUTOINOUTMODULE copying i/o from elsewhere
`verilog-auto-inout' for AUTOINOUT making hierarchy inouts
`verilog-auto-input' for AUTOINPUT making hierarchy inputs
+ `verilog-auto-insert-lisp' for AUTOINSERTLISP insert code from lisp function
`verilog-auto-inst' for AUTOINST instantiation pins
`verilog-auto-star' for AUTOINST .* SystemVerilog pins
`verilog-auto-inst-param' for AUTOINSTPARAM instantiation params
`verilog-read-defines' for reading `define values
`verilog-read-includes' for reading `includes
-If you have bugs with these autos, try contacting the AUTOAUTHOR
-Wilson Snyder (wsnyder@wsnyder.org), and/or see http://www.veripool.com."
+If you have bugs with these autos, please file an issue at
+URL `http://www.veripool.org/verilog-mode' or contact the AUTOAUTHOR
+Wilson Snyder (wsnyder@wsnyder.org)."
(interactive)
(unless noninteractive (message "Updating AUTOs..."))
(if (fboundp 'dinotrace-unannotate-all)
;; nil==(equal "input" (progn (looking-at "input") (match-string 0)))
(fontlocked (when (and (boundp 'font-lock-mode)
font-lock-mode)
- (font-lock-mode nil)
+ (font-lock-mode 0)
t))
;; Cache directories; we don't write new files, so can't change
(verilog-dir-cache-preserving t))
(verilog-inject-sense)
(verilog-inject-arg))
;;
+ ;; Do user inserts first, so their code can insert AUTOs
+ ;; We may provide a AUTOINSERTLISPLAST if another cleanup pass is needed
+ (verilog-auto-re-search-do "/\\*AUTOINSERTLISP(.*?)\\*/"
+ 'verilog-auto-insert-lisp)
+ ;; Expand instances before need the signals the instances input/output
(verilog-auto-re-search-do "/\\*AUTOINSTPARAM\\*/" 'verilog-auto-inst-param)
(verilog-auto-re-search-do "/\\*AUTOINST\\*/" 'verilog-auto-inst)
(verilog-auto-re-search-do "\\.\\*" 'verilog-auto-star)
;;
;; first in/outs from other files
(verilog-auto-re-search-do "/\\*AUTOINOUTMODULE([^)]*)\\*/" 'verilog-auto-inout-module)
+ (verilog-auto-re-search-do "/\\*AUTOINOUTCOMP([^)]*)\\*/" 'verilog-auto-inout-comp)
;; next in/outs which need previous sucked inputs first
(verilog-auto-re-search-do "/\\*AUTOOUTPUT\\((\"[^\"]*\")\\)\\*/"
'(lambda () (verilog-auto-output t)))
(cond ((and oldbuf (equal oldbuf (buffer-string)))
(set-buffer-modified-p nil)
(unless noninteractive (message "Updating AUTOs...done (no changes)")))
- (t (unless noninteractive (message "Updating AUTOs...done"))))))
+ (t (unless noninteractive (message "Updating AUTOs...done")))))
;; Unwind forms
(progn
;; Restore font-lock
- (when fontlocked (font-lock-mode t)))))
+ (when fontlocked (font-lock-mode t))))))
\f
;;
(if (> (point) verilog-sk-p) "] " " ")))
(defun verilog-sk-header ()
- "Insert a descriptive header at the top of the file."
+ "Insert a descriptive header at the top of the file.
+See also `verilog-header' for an alternative format."
(interactive "*")
(save-excursion
(goto-char (point-min))
"\n// Description : " str
"\n// Author : " (user-full-name)
"\n// Created On : " (current-time-string)
- "\n// Last Modified By: ."
- "\n// Last Modified On: ."
+ "\n// Last Modified By: " (user-full-name)
+ "\n// Last Modified On: " (current-time-string)
"\n// Update Count : 0"
"\n// Status : Unknown, Use with caution!"
"\n")
and the case items."
"[selector expression]: "
> "case (" str ") " \n
- > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n )
+ > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n > )
resume: > (- verilog-case-indent) "endcase" (progn (electric-verilog-terminate-line) nil))
(define-skeleton verilog-sk-casex
and the case items."
"[selector expression]: "
> "casex (" str ") " \n
- > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n )
+ > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n > )
resume: > (- verilog-case-indent) "endcase" (progn (electric-verilog-terminate-line) nil))
(define-skeleton verilog-sk-casez
and the case items."
"[selector expression]: "
> "casez (" str ") " \n
- > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n )
+ > ("case selector: " str ": begin" \n > _ \n > (- verilog-indent-level-behavioral) "end" \n > )
resume: > (- verilog-case-indent) "endcase" (progn (electric-verilog-terminate-line) nil))
(define-skeleton verilog-sk-if
;; second (emacs/xemacs) impl.: G. Van der Plas (spice-mode.el)
(if (featurep 'xemacs)
- (require 'overlay)
- (require 'lucid)) ;; what else can we do ??
+ (require 'overlay))
(defconst verilog-include-file-regexp
"^`include\\s-+\"\\([^\n\"]*\\)\""
(princ "\n")
(princ "For new releases, see http://www.verilog.com\n")
(princ "\n")
- (princ "For frequently asked questions, see http://www.veripool.com/verilog-mode-faq.html\n")
+ (princ "For frequently asked questions, see http://www.veripool.org/verilog-mode-faq.html\n")
(princ "\n")
(princ "To submit a bug, use M-x verilog-submit-bug-report\n")
(princ "\n")))
(interactive)
(let ((reporter-prompt-for-summary-p t))
(reporter-submit-bug-report
- "mac@verilog.com"
+ "mac@verilog.com, wsnyder@wsnyder.org"
(concat "verilog-mode v" verilog-mode-version)
'(
verilog-align-ifelse
nil nil
(concat "Hi Mac,
-I want to report a bug. I've read the `Bugs' section of `Info' on
-Emacs, so I know how to make a clear and unambiguous report. To get
-to that Info section, I typed
-
-M-x info RET m " invocation-name " RET m bugs RET
+I want to report a bug.
Before I go further, I want to say that Verilog mode has changed my life.
I save so much time, my files are colored nicely, my co workers respect
my coding ability... until now. I'd really appreciate anything you
could do to help me out with this minor deficiency in the product.
-If you have bugs with the AUTO functions, please CC the AUTOAUTHOR Wilson
-Snyder (wsnyder@wsnyder.org) and/or see http://www.veripool.com.
-You may also want to look at the Verilog-Mode FAQ, see
-http://www.veripool.com/verilog-mode-faq.html.
+I've taken a look at the Verilog-Mode FAQ at
+http://www.veripool.org/verilog-mode-faq.html.
+
+And, I've considered filing the bug on the issue tracker at
+http://www.veripool.org/verilog-mode-bugs
+since I realize that public bugs are easier for you to track,
+and for others to search, but would prefer to email.
-To reproduce the bug, start a fresh Emacs via " invocation-name "
+So, to reproduce the bug, start a fresh Emacs via " invocation-name "
-no-init-file -no-site-file'. In a new buffer, in Verilog mode, type
the code included below.