[sod] / src / module-proto.lisp

;;; -*-lisp-*-
;;;
;;; Module protocol definition
;;;
;;; (c) 2009 Straylight/Edgeware
;;;

;;;----- Licensing notice ---------------------------------------------------
;;;
;;; This file is part of the Sensble Object Design, an object system for C.
;;;
;;; SOD is free software; you can redistribute it and/or modify
;;; it under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 2 of the License, or
;;; (at your option) any later version.
;;;
;;; SOD is distributed in the hope that it will be useful,
;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with SOD; if not, write to the Free Software Foundation,
;;; Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

(cl:in-package #:sod)

;;;--------------------------------------------------------------------------
;;; Module environment.

(defvar *module-bindings-alist* nil
  "An alist of (SYMBOL . THUNK) pairs.

   During module construction, each SYMBOL is special-bound to the value
   returned by the corresponding THUNK.")

(export 'add-module-binding)
(defun add-module-binding (symbol thunk)
  "Add a new module variable binding.

   During module construction, SYMBOL will be special-bound to the value
   returned by THUNK.  If you can, use `define-module-var' instead."
  (aif (assoc symbol *module-bindings-alist*)
       (setf (cdr it) thunk)
       (asetf *module-bindings-alist* (acons symbol thunk it))))

(export 'define-module-var)
(defmacro define-module-var (name value-form &optional documentation)
  "Add a new module variable binding.

   During module construction, NAME will be special-bound to the value of
   VALUE-FORM.  The NAME is proclaimed special, but is initially left
   unbound."
  `(progn
     (defvar ,name)
     ,@(and documentation
	    `((setf (documentation ',name 'variable) ,documentation)))
     (add-module-binding ',name (lambda () ,value-form))))

(export 'call-with-module-environment)
(defun call-with-module-environment (thunk)
  "Invoke THUNK with a new collection of bindings for the module variables."
  (progv
      (mapcar #'car *module-bindings-alist*)
      (mapcar (compose #'cdr #'funcall) *module-bindings-alist*)
    (funcall thunk)))

;;;--------------------------------------------------------------------------
;;; The reset switch.

(defvar *clear-the-decks-alist* nil
  "List tracking functions to be called by `clear-the-decks'.")

(export 'add-clear-the-decks-function)
(defun add-clear-the-decks-function (symbol thunk)
  "Add a function to the `clear-the-decks' list.

   If a function tagged by SYMBOL already exists on the list, then that
   function is replaced; otherwise a new function is added."
  (aif (assoc symbol *clear-the-decks-alist*)
       (setf (cdr it) thunk)
       (asetf *clear-the-decks-alist* (acons symbol thunk it))))

(export 'define-clear-the-decks)
(defmacro define-clear-the-decks (name &body body)
  "Add behaviour to `clear-the-decks'.

   When `clear-the-decks' is called, the BODY will be evaluated as a progn.
   The relative order of `clear-the-decks' operations is unspecified."
  `(add-clear-the-decks-function ',name (lambda () ,@body)))

(export 'clear-the-decks)
(defun clear-the-decks ()
  "Invoke a sequence of functions to reset the world."
  (dolist (item *clear-the-decks-alist*)
    (funcall (cdr item))))

;;;--------------------------------------------------------------------------
;;; Module construction protocol.

(export '*module*)
(defparameter *module* nil
  "The current module under construction.

   During module construction, this is always an instance of `module'.  Once
   we've finished constructing it, we'll call `change-class' to turn it into
   an instance of whatever type is requested in the module's `:lisp-class'
   property.")

(export 'module-import)
(defgeneric module-import (object)
  (:documentation
   "Import definitions into the current environment.

   Instructs the OBJECT to import its definitions into the current
   environment.  Modules pass the request on to their constituents.  There's
   a default method which does nothing at all.

   It's not usual to modify the current module.  Inserting things into the
   `*module-type-map*' is a good plan.")
  (:method (object)
    (declare (ignore object))
    nil))

(export 'add-to-module)
(defgeneric add-to-module (module item)
  (:documentation
   "Add ITEM to the MODULE's list of accumulated items.

   The module items participate in the `module-import' and `hook-output'
   protocols."))

(export 'finalize-module)
(defgeneric finalize-module (module)
  (:documentation
   "Finalizes a module, setting everything which needs setting.

   This isn't necessary if you made the module by hand.  If you've
   constructed it incrementally, then it might be a good plan.  In
   particular, it will change the class (using `change-class') of the module
   according to the class choice set in the module's `:lisp-class' property.
   This has the side effects of calling `shared-initialize', setting the
   module's state to `t', and checking for unrecognized
   properties.  (Therefore subclasses should add a method to
   `shared-initialize' taking care of looking at interesting properties, just
   to make sure they're ticked off.)"))

;;;--------------------------------------------------------------------------
;;; Module objects.

(export '(module module-name module-pset module-items module-dependencies))
(defclass module ()
  ((name :initarg :name :type pathname :reader module-name)
   (pset :initarg :pset :initform (make-pset) :type pset :reader module-pset)
   (items :initarg :items :initform nil :type list :accessor module-items)
   (dependencies :initarg :dependencies :initform nil
		 :type list :accessor module-dependencies)
   (state :initarg :state :initform nil :accessor module-state))
  (:documentation
   "A module is a container for the definitions made in a source file.

   Modules are the fundamental units of translation.  The main job of a
   module is to remember which definitions it contains, so that they can be
   translated and written to output files.  The module contains the following
   handy bits of information:

     * A (path) name, which is the filename we used to find it.  The default
       output filenames are derived from this.  (We use the file's truename
       as the hash key to prevent multiple inclusion, and that's a different
       thing.)

     * A property list containing other useful things.

     * A list of items which the module contains.

     * A list of other modules that this one depends on.

   Modules are usually constructed by the `read-module' function, though
   there's nothing to stop fancy extensions building modules
   programmatically."))

(export 'define-module)
(defmacro define-module
    ((name &key (truename nil truenamep) (location nil locationp))
     &body body)
  "Define and return a new module.

   The module will be called NAME; it will be included in the `*module-map*'
   only if it has a TRUENAME (which defaults to the truename of NAME, or nil
   if there is no file with that name).  The module is populated by
   evaluating the BODY in a dynamic environment where `*module*' is bound to
   the module under construction, and any other module variables are bound to
   appropriate initial values -- see `*module-bindings-alist*' and
   `define-module-var'.

   If a module with the same NAME is already known, then it is returned
   unchanged: the BODY is not evaluated.

   The LOCATION may be any printable value other than `t' (though
   `file-location' objects are most usual) indicating what provoked this
   module definition: it gets reported to the user if an import cycle is
   detected.  This check is made only if a TRUENAME is supplied.

   Evaluation order irregularity: the TRUENAME and LOCATION arguments are
   always evaluated in that order, regardless of their order in the macro
   call site (which this macro can't detect)."

  `(build-module ,name
		 (lambda () ,@body)
		 ,@(and truenamep `(:truename ,truename))
		 ,@(and locationp `(:location ,location))))

(export 'with-temporary-module)
(defmacro with-temporary-module ((&key) &body body)
  "Evaluate BODY within the context of a temporary module."
  `(call-with-temporary-module (lambda () ,@body)))

;;;----- That's all, folks --------------------------------------------------
Commit	Line	Data
dea4d055 MW	1	;;; --lisp--
	2	;;;
	3	;;; Module protocol definition
	4	;;;
	5	;;; (c) 2009 Straylight/Edgeware
	6	;;;
	7
	8	;;;----- Licensing notice ---------------------------------------------------
	9	;;;
	10	;;; This file is part of the Sensble Object Design, an object system for C.
	11	;;;
	12	;;; SOD is free software; you can redistribute it and/or modify
	13	;;; it under the terms of the GNU General Public License as published by
	14	;;; the Free Software Foundation; either version 2 of the License, or
	15	;;; (at your option) any later version.
	16	;;;
	17	;;; SOD is distributed in the hope that it will be useful,
	18	;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
	19	;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	20	;;; GNU General Public License for more details.
	21	;;;
	22	;;; You should have received a copy of the GNU General Public License
	23	;;; along with SOD; if not, write to the Free Software Foundation,
	24	;;; Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	25
	26	(cl:in-package #:sod)
	27
	28	;;;--------------------------------------------------------------------------
	29	;;; Module environment.
	30
	31	(defvar module-bindings-alist nil
	32	"An alist of (SYMBOL . THUNK) pairs.
	33
	34	During module construction, each SYMBOL is special-bound to the value
	35	returned by the corresponding THUNK.")
	36
	37	(export 'add-module-binding)
	38	(defun add-module-binding (symbol thunk)
	39	"Add a new module variable binding.
	40
	41	During module construction, SYMBOL will be special-bound to the value
	42	returned by THUNK. If you can, use `define-module-var' instead."
	43	(aif (assoc symbol module-bindings-alist)
	44	(setf (cdr it) thunk)
	45	(asetf module-bindings-alist (acons symbol thunk it))))
	46
	47	(export 'define-module-var)
	48	(defmacro define-module-var (name value-form &optional documentation)
	49	"Add a new module variable binding.
	50
	51	During module construction, NAME will be special-bound to the value of
	52	VALUE-FORM. The NAME is proclaimed special, but is initially left
	53	unbound."
	54	`(progn
	55	(defvar ,name)
	56	,@(and documentation
	57	`((setf (documentation ',name 'variable) ,documentation)))
	58	(add-module-binding ',name (lambda () ,value-form))))
	59
	60	(export 'call-with-module-environment)
	61	(defun call-with-module-environment (thunk)
	62	"Invoke THUNK with a new collection of bindings for the module variables."
	63	(progv
	64	(mapcar #'car module-bindings-alist)
65	(mapcar (compose #'cdr #'funcall) module-bindings-alist)
66	(funcall thunk)))
67
68	;;;--------------------------------------------------------------------------
69	;;; The reset switch.
70
71	(defvar clear-the-decks-alist nil
72	"List tracking functions to be called by `clear-the-decks'.")
73
74	(export 'add-clear-the-decks-function)
75	(defun add-clear-the-decks-function (symbol thunk)
76	"Add a function to the `clear-the-decks' list.
77
78	If a function tagged by SYMBOL already exists on the list, then that
79	function is replaced; otherwise a new function is added."
80	(aif (assoc symbol clear-the-decks-alist)
81	(setf (cdr it) thunk)
82	(asetf clear-the-decks-alist (acons symbol thunk it))))
83
84	(export 'define-clear-the-decks)
85	(defmacro define-clear-the-decks (name &body body)
86	"Add behaviour to `clear-the-decks'.
87
88	When `clear-the-decks' is called, the BODY will be evaluated as a progn.
89	The relative order of `clear-the-decks' operations is unspecified."
90	`(add-clear-the-decks-function ',name (lambda () ,@body)))
91
92	(export 'clear-the-decks)
93	(defun clear-the-decks ()
94	"Invoke a sequence of functions to reset the world."
95	(dolist (item clear-the-decks-alist)
96	(funcall (cdr item))))
97
98	;;;--------------------------------------------------------------------------
99	;;; Module construction protocol.
100
101	(export 'module)
102	(defparameter module nil
103	"The current module under construction.
104
bf090e02 MW	105	During module construction, this is always an instance of `module'. Once
	106	we've finished constructing it, we'll call `change-class' to turn it into
	107	an instance of whatever type is requested in the module's `:lisp-class'
	108	property.")
dea4d055 MW	109
	110	(export 'module-import)
	111	(defgeneric module-import (object)
	112	(:documentation
	113	"Import definitions into the current environment.
	114
	115	Instructs the OBJECT to import its definitions into the current
	116	environment. Modules pass the request on to their constituents. There's
	117	a default method which does nothing at all.
	118
	119	It's not usual to modify the current module. Inserting things into the
	120	`module-type-map' is a good plan.")
1d8cc67a MW	121	(:method (object)
	122	(declare (ignore object))
	123	nil))
dea4d055 MW	124
	125	(export 'add-to-module)
	126	(defgeneric add-to-module (module item)
	127	(:documentation
	128	"Add ITEM to the MODULE's list of accumulated items.
	129
048d0b2d	130	The module items participate in the `module-import' and `hook-output'
dea4d055 MW	131	protocols."))
	132
	133	(export 'finalize-module)
	134	(defgeneric finalize-module (module)
	135	(:documentation
	136	"Finalizes a module, setting everything which needs setting.
	137
	138	This isn't necessary if you made the module by hand. If you've
	139	constructed it incrementally, then it might be a good plan. In
	140	particular, it will change the class (using `change-class') of the module
	141	according to the class choice set in the module's `:lisp-class' property.
	142	This has the side effects of calling `shared-initialize', setting the
bf090e02 MW	143	module's state to `t', and checking for unrecognized
	144	properties. (Therefore subclasses should add a method to
	145	`shared-initialize' taking care of looking at interesting properties, just
	146	to make sure they're ticked off.)"))
dea4d055 MW	147
	148	;;;--------------------------------------------------------------------------
	149	;;; Module objects.
	150
	151	(export '(module module-name module-pset module-items module-dependencies))
	152	(defclass module ()
	153	((name :initarg :name :type pathname :reader module-name)
	154	(pset :initarg :pset :initform (make-pset) :type pset :reader module-pset)
	155	(items :initarg :items :initform nil :type list :accessor module-items)
	156	(dependencies :initarg :dependencies :initform nil
	157	:type list :accessor module-dependencies)
	158	(state :initarg :state :initform nil :accessor module-state))
	159	(:documentation
	160	"A module is a container for the definitions made in a source file.
	161
	162	Modules are the fundamental units of translation. The main job of a
	163	module is to remember which definitions it contains, so that they can be
	164	translated and written to output files. The module contains the following
	165	handy bits of information:
	166
	167	* A (path) name, which is the filename we used to find it. The default
	168	output filenames are derived from this. (We use the file's truename
	169	as the hash key to prevent multiple inclusion, and that's a different
	170	thing.)
	171
	172	* A property list containing other useful things.
	173
	174	* A list of items which the module contains.
	175
	176	* A list of other modules that this one depends on.
	177
	178	Modules are usually constructed by the `read-module' function, though
	179	there's nothing to stop fancy extensions building modules
	180	programmatically."))
	181
	182	(export 'define-module)
	183	(defmacro define-module
	184	((name &key (truename nil truenamep) (location nil locationp))
	185	&body body)
bf090e02	186	"Define and return a new module.
dea4d055	187
bf090e02	188	The module will be called NAME; it will be included in the `module-map'
dea4d055 MW	189	only if it has a TRUENAME (which defaults to the truename of NAME, or nil
dea4d055 MW	190	if there is no file with that name). The module is populated by
bf090e02	191	evaluating the BODY in a dynamic environment where `module' is bound to
dea4d055 MW	192	the module under construction, and any other module variables are bound to
	193	appropriate initial values -- see `module-bindings-alist' and
	194	`define-module-var'.
	195
bf090e02 MW	196	If a module with the same NAME is already known, then it is returned
	197	unchanged: the BODY is not evaluated.
	198
	199	The LOCATION may be any printable value other than `t' (though
	200	`file-location' objects are most usual) indicating what provoked this
	201	module definition: it gets reported to the user if an import cycle is
	202	detected. This check is made only if a TRUENAME is supplied.
	203
dea4d055 MW	204	Evaluation order irregularity: the TRUENAME and LOCATION arguments are
dea4d055 MW	205	always evaluated in that order, regardless of their order in the macro
bf090e02	206	call site (which this macro can't detect)."
dea4d055 MW	207
	208	`(build-module ,name
	209	(lambda () ,@body)
	210	,@(and truenamep `(:truename ,truename))
	211	,@(and locationp `(:location ,location))))
	212
239fa5bd MW	213	(export 'with-temporary-module)
	214	(defmacro with-temporary-module ((&key) &body body)
	215	"Evaluate BODY within the context of a temporary module."
	216	`(call-with-temporary-module (lambda () ,@body)))
	217
dea4d055	218	;;;----- That's all, folks --------------------------------------------------