;; Common Lisp bindings for GTK+ v2.x ;; Copyright 2000-2006 Espen S. Johnsen ;; ;; Permission is hereby granted, free of charge, to any person obtaining ;; a copy of this software and associated documentation files (the ;; "Software"), to deal in the Software without restriction, including ;; without limitation the rights to use, copy, modify, merge, publish, ;; distribute, sublicense, and/or sell copies of the Software, and to ;; permit persons to whom the Software is furnished to do so, subject to ;; the following conditions: ;; ;; The above copyright notice and this permission notice shall be ;; included in all copies or substantial portions of the Software. ;; ;; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ;; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ;; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ;; IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY ;; CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, ;; TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE ;; SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ;; $Id: gtype.lisp,v 1.65 2007-10-17 14:33:50 espen Exp $ (in-package "GLIB") (use-prefix "g") ;; Initialize the glib type system (defbinding type-init () nil) (type-init) (eval-when (:compile-toplevel :load-toplevel :execute) (defbinding (bitsize-of-gtype "bitsize_of_gtype") () unsigned-int)) (deftype type-number () `(unsigned-byte ,(bitsize-of-gtype))) (deftype gtype () 'symbol) (define-type-method alien-type ((type gtype)) (declare (ignore type)) (alien-type 'type-number)) (define-type-method size-of ((type gtype) &key (inlined t)) (assert-inlined type inlined) (size-of 'type-number)) (define-type-method to-alien-form ((type gtype) gtype &optional copy-p) (declare (ignore type copy-p)) `(find-type-number ,gtype t)) (define-type-method to-alien-function ((type gtype) &optional copy-p) (declare (ignore type copy-p)) #'(lambda (gtype) (find-type-number gtype t))) (define-type-method from-alien-form ((type gtype) form &key ref) (declare (ignore type ref)) `(type-from-number ,form)) (define-type-method from-alien-function ((type gtype) &key ref) (declare (ignore type ref)) #'(lambda (type-number) (type-from-number type-number))) (define-type-method writer-function ((type gtype) &key temp (inlined t)) (declare (ignore temp)) (assert-inlined type inlined) (let ((writer (writer-function 'type-number))) #'(lambda (gtype location &optional (offset 0)) (funcall writer (find-type-number gtype t) location offset)))) (define-type-method reader-function ((type gtype) &key ref (inlined t)) (declare (ignore ref)) (assert-inlined type inlined) (let ((reader (reader-function 'type-number))) #'(lambda (location &optional (offset 0)) (type-from-number (funcall reader location offset))))) (eval-when (:compile-toplevel :load-toplevel :execute) (defclass type-query (struct) ((type-number :allocation :alien :type type-number) (name :allocation :alien :type (copy-of string)) (class-size :allocation :alien :type unsigned-int) (instance-size :allocation :alien :type unsigned-int)) (:metaclass struct-class))) (defbinding type-query (type) nil ((find-type-number type t) type-number) ((make-instance 'type-query) type-query :in/return)) (defun type-instance-size (type) (slot-value (type-query type) 'instance-size)) (defun type-class-size (type) (slot-value (type-query type) 'class-size)) (defbinding type-class-ref (type) pointer ((find-type-number type t) type-number)) (defbinding type-class-unref () nil (class pointer)) (defbinding type-class-peek (type) pointer ((find-type-number type t) type-number)) ;;;; Mapping between lisp types and glib types (defvar *registered-types* ()) (defvar *registered-type-aliases* ()) (defvar *registered-static-types* ()) (defvar *lisp-type-to-type-number* (make-hash-table)) (defvar *type-number-to-lisp-type* (make-hash-table)) (defbinding %type-from-name () type-number (name string)) (defun type-number-from-glib-name (name &optional (error-p t)) (let ((type-number (%type-from-name name))) (cond ((not (zerop type-number)) type-number) (error-p (error "Invalid gtype name: ~A" name))))) (defun type-from-glib-name (name) (type-from-number (type-number-from-glib-name name) t)) (defun register-type (type id) (cond ((find-type-number type)) ((not id) (warn "Can't register type with no foreign id: ~A" type)) (t (pushnew (cons type id) *registered-types* :key #'car) (let ((type-number (typecase id (string (type-number-from-glib-name id)) (symbol (funcall id))))) (setf (gethash type *lisp-type-to-type-number*) type-number) (setf (gethash type-number *type-number-to-lisp-type*) type) type-number)))) (defun register-type-alias (type alias) (pushnew (cons type alias) *registered-type-aliases* :key #'car) (setf (gethash type *lisp-type-to-type-number*) (find-type-number alias t))) (defun reinitialize-all-types () (clrhash *lisp-type-to-type-number*) (clrhash *type-number-to-lisp-type*) (type-init) ; initialize the glib type system (mapc #'(lambda (type) (register-type (car type) (cdr type))) *registered-types*) (mapc #'(lambda (type) (apply #'register-new-type type)) (reverse *registered-static-types*)) (mapc #'(lambda (type) (register-type-alias (car type) (cdr type))) *registered-type-aliases*)) (pushnew 'reinitialize-all-types #+cmu *after-save-initializations* #+sbcl *init-hooks* #+clisp custom:*init-hooks*) #+cmu (pushnew 'system::reinitialize-global-table ; we shouldn't have to do this? *after-save-initializations*) (defun find-type-number (type &optional error-p) (etypecase type (integer type) (string (type-number-from-glib-name type error-p)) (symbol (or (gethash type *lisp-type-to-type-number*) (and error-p (error "Type not registered: ~A" type)))) (class (find-type-number (class-name type) error-p)))) (defun type-from-number (type-number &optional error) (multiple-value-bind (type found) (gethash type-number *type-number-to-lisp-type*) (if found type (let ((name (find-foreign-type-name type-number))) (cond ((and name (not (= (type-number-from-glib-name name nil) type-number))) ;; This is a hack because GdkEvent seems to be registered ;; multiple times (type-from-number (type-number-from-glib-name name))) ((and error name) (error "Type number not registered: ~A (~A)" type-number name)) ((and error) (error "Invalid type number: ~A" type-number))))))) (defbinding (find-foreign-type-name "g_type_name") (type) (copy-of string) ((find-type-number type t) type-number)) (defun type-number-of (object) (find-type-number (type-of object) t)) ;; For #+(SBCL WIN32): ;; The first 2 lines of the output from "pexports" are: ;; LIBRARY XXX.dll ;; EXPORTS ;; We don't do anything to skip these 2 lines because they won't pass the ;; WHEN (AND ...) in the LOOP ;; - cph 19-May-2007 (eval-when (:compile-toplevel :load-toplevel :execute) (defvar *type-initializers* ()) (defun %find-types-in-library (pathname prefixes ignore) (let ((outname (tmpname "types"))) (unwind-protect (let ((asdf::*verbose-out* nil)) #-win32 (asdf:run-shell-command "nm ~A ~A > ~A" #-darwin "--defined-only --dynamic --extern-only" #+darwin "-f -s __TEXT __text" (namestring (truename pathname)) outname) ;; Note about win32 port: ;; 1. (TRUENAME PATHNAME) will bomb. ;; 2. either ;; pexports "d:\\whatever\\bin\\zlib1.dll" ;; or ;; pexports d:/whatever/bin/zlib1.dll ;; anything else will bomb. this is why ~S is used below. #+win32 (asdf:run-shell-command "pexports ~S > ~A" (namestring pathname) outname) (with-open-file (output outname) (loop as line = (read-line output nil) as symbol = (when line #-win32 (let ((pos (position #\space line :from-end t))) #-darwin(subseq line (1+ pos)) #+darwin (when (char= (char line (1- pos)) #\T) (subseq line (+ pos 2)))) #+win32 (subseq line 0 (1- (length line)))) while line when (and symbol (> (length symbol) 9) (not (char= (char symbol 0) #\_)) (or (not prefixes) (some #'(lambda (prefix) (and (> (length symbol) (length prefix)) (string= prefix symbol :end2 (length prefix)))) (mklist prefixes))) (string= "_get_type" symbol :start2 (- (length symbol) 9)) (not (member symbol ignore :test #'string=))) collect symbol))) (delete-file outname))))) (defmacro init-types-in-library (system library &key prefix ignore) (let* ((filename (asdf:component-pathname (asdf:find-component (asdf:find-system system) library))) (names (%find-types-in-library filename prefix ignore))) `(progn ,@(mapcar #'(lambda (name) `(progn (defbinding (,(intern name) ,name) () type-number) (,(intern name)) (pushnew ',(intern name) *type-initializers*))) names)))) (defun find-type-init-function (type-number) (loop for type-init in *type-initializers* when (= type-number (funcall type-init)) do (return type-init))) (defun register-type-as (type-number) (or (find-type-init-function type-number) (find-foreign-type-name type-number) (error "Unknown type-number: ~A" type-number))) (defun default-type-init-name (type) (find-symbol (format nil "~A_~A_get_type" (package-prefix *package*) (substitute #\_ #\- (string-downcase type))))) (eval-when (:compile-toplevel :load-toplevel :execute) (defclass type-info (struct) ((class-size :allocation :alien :type (unsigned 16) :initarg :class-size) (base-init :allocation :alien :type pointer) (base-finalize :allocation :alien :type pointer) (class-init :allocation :alien :type pointer) (class-finalize :allocation :alien :type pointer) (class-data :allocation :alien :type pointer) (instance-size :allocation :alien :type (unsigned 16) :initarg :instance-size) (n-preallocs :allocation :alien :type (unsigned 16)) (instance-init :allocation :alien :type pointer) (value-table :allocation :alien :type pointer)) (:metaclass struct-class))) (defbinding %type-register-static () type-number (parent-type type-number) (name string) (info type-info) (0 unsigned-int)) (defun register-new-type (type parent &optional foreign-name) (let ((parent-info (type-query parent))) (with-slots ((parent-number type-number) class-size instance-size) parent-info (let ((type-number (%type-register-static parent-number (or foreign-name (default-alien-type-name type)) (make-instance 'type-info :class-size class-size :instance-size instance-size)))) (pushnew (list type parent foreign-name) *registered-static-types* :key #'car) (setf (gethash type *lisp-type-to-type-number*) type-number) (setf (gethash type-number *type-number-to-lisp-type*) type) type-number)))) ;;;; Metaclass for subclasses of ginstance (eval-when (:compile-toplevel :load-toplevel :execute) (defclass ginstance-class (proxy-class) ((gtype :initarg :gtype :initform nil :reader ginstance-class-gtype)))) (defun update-size (class) (let ((type-number (find-type-number class))) (cond ((not (foreign-size-p class)) (setf (foreign-size class) (type-instance-size type-number))) ((and (foreign-size-p class) (not (= (type-instance-size type-number) (foreign-size class)))) (warn "Size mismatch for class ~A" class))))) (defmethod finalize-inheritance ((class ginstance-class)) (prog1 #+clisp(call-next-method) (let* ((class-name (class-name class)) (super (most-specific-proxy-superclass class)) (gtype (or (first (ginstance-class-gtype class)) (default-alien-type-name class-name))) (type-number (or (find-type-number class-name) (let ((type-number (if (or (symbolp gtype) (type-number-from-glib-name gtype nil)) (register-type class-name gtype) (register-new-type class-name (class-name super) gtype)))) (type-class-ref type-number) type-number)))) #+nil (when (and (supertype type-number) (not (eq (class-name super) (supertype type-number)))) (warn "Super class mismatch between CLOS and GObject for ~A" class-name))) (update-size class)) #-clisp(call-next-method)) (defmethod shared-initialize ((class ginstance-class) names &rest initargs) (declare (ignore names initargs)) (call-next-method) (when (class-finalized-p class) (update-size class))) (defmethod validate-superclass ((class ginstance-class) (super standard-class)) (subtypep (class-name super) 'ginstance)) ;;;; Superclass for wrapping types in the glib type system (eval-when (:compile-toplevel :load-toplevel :execute) (defclass ginstance (ref-counted-object) (;(class :allocation :alien :type pointer :offset 0) ) (:metaclass proxy-class) (:size #.(size-of 'pointer)))) (defun ref-type-number (location &optional offset) (declare (ignore location offset))) (setf (symbol-function 'ref-type-number) (reader-function 'type-number)) (defun %type-number-of-ginstance (location) (let ((class (ref-pointer location))) (ref-type-number class))) (defmethod make-proxy-instance :around ((class ginstance-class) location &rest initargs) (declare (ignore class)) (let ((class (labels ((find-known-class (type-number) (or (find-class (type-from-number type-number) nil) (unless (zerop type-number) (find-known-class (type-parent type-number)))))) (find-known-class (%type-number-of-ginstance location))))) ;; Note that chancing the class argument should not alter "the ;; ordered set of applicable methods" as specified in the ;; Hyperspec (if class (apply #'call-next-method class location initargs) (error "Object at ~A has an unkown type number: ~A" location (%type-number-of-ginstance location))))) ;;;; Registering fundamental types (register-type 'nil "void") (register-type 'pointer "gpointer") (register-type 'char "gchar") (register-type 'unsigned-char "guchar") (register-type 'boolean "gboolean") (register-type 'int "gint") (register-type-alias 'integer 'int) (register-type-alias 'fixnum 'int) (register-type 'unsigned-int "guint") (register-type 'long "glong") (register-type 'unsigned-long "gulong") (register-type 'single-float "gfloat") (register-type 'double-float "gdouble") (register-type 'string "gchararray") (register-type-alias 'pathname 'string) ;;;; Introspection of type information (defvar *derivable-type-info* (make-hash-table)) (defun register-derivable-type (type id expander &optional dependencies) (register-type type id) (let ((type-number (register-type type id))) (setf (gethash type-number *derivable-type-info*) (list expander dependencies)))) (defun find-type-info (type) (dolist (super (cdr (type-hierarchy type))) (let ((info (gethash super *derivable-type-info*))) (return-if info)))) (defun expand-type-definition (type forward-p options) (let ((expander (first (find-type-info type)))) (funcall expander (find-type-number type t) forward-p options))) (defbinding type-parent (type) type-number ((find-type-number type t) type-number)) (defun supertype (type) (type-from-number (type-parent type))) (defbinding %type-interfaces (type) pointer ((find-type-number type t) type-number) (n-interfaces unsigned-int :out)) (defun type-interfaces (type) (multiple-value-bind (array length) (%type-interfaces type) (unwind-protect (map-c-vector 'list #'identity array 'type-number length) (deallocate-memory array)))) (defun implements (type) (mapcar #'type-from-number (type-interfaces type))) (defun type-hierarchy (type) (let ((type-number (find-type-number type t))) (unless (= type-number 0) (cons type-number (type-hierarchy (type-parent type-number)))))) (defbinding (type-is-p "g_type_is_a") (type super) boolean ((find-type-number type) type-number) ((find-type-number super) type-number)) (defbinding %type-children () pointer (type-number type-number) (num-children unsigned-int :out)) (defun map-subtypes (function type &optional prefix) (let ((type-number (find-type-number type t))) (multiple-value-bind (array length) (%type-children type-number) (unwind-protect (map-c-vector 'nil #'(lambda (type-number) (when (or (not prefix) (string-prefix-p prefix (find-foreign-type-name type-number))) (funcall function type-number)) (map-subtypes function type-number prefix)) array 'type-number length) (deallocate-memory array))))) (defun find-types (prefix) (let ((type-list nil)) (maphash #'(lambda (type-number expander) (declare (ignore expander)) (map-subtypes #'(lambda (type-number) (pushnew type-number type-list)) type-number prefix)) *derivable-type-info*) type-list)) (defun find-type-dependencies (type &optional options) (let ((find-dependencies (second (find-type-info type)))) (when find-dependencies (remove-duplicates (mapcar #'find-type-number (funcall find-dependencies (find-type-number type t) options)))))) ;; The argument is a list where each elements is on the form ;; (type . dependencies). This function will not handle indirect ;; dependencies and types depending on them selves. (defun sort-types-topologicaly (unsorted) (flet ((depend-p (type1) (find-if #'(lambda (type2) (and ;; If a type depends a subtype it has to be ;; forward defined (not (type-is-p (car type2) (car type1))) (find (car type2) (cdr type1)))) unsorted))) (let ((sorted (loop while unsorted nconc (multiple-value-bind (sorted remaining) (delete-collect-if #'(lambda (type) (or (not (cdr type)) (not (depend-p type)))) unsorted) (cond ((not sorted) ;; We have a circular dependency which have to ;; be resolved (let ((selected (find-if #'(lambda (type) (every #'(lambda (dep) (or (not (type-is-p (car type) dep)) (not (find dep unsorted :key #'car)))) (cdr type))) unsorted))) (unless selected (error "Couldn't resolve circular dependency")) (setq unsorted (delete selected unsorted)) (list selected))) (t (setq unsorted remaining) sorted)))))) ;; Mark types which have to be forward defined (loop for tmp on sorted as (type . dependencies) = (first tmp) collect (cons type (and dependencies (find-if #'(lambda (type) (find (car type) dependencies)) (rest tmp)) t)))))) (defun expand-type-definitions (prefix &optional args) (flet ((type-options (type-number) (let ((name (find-foreign-type-name type-number))) (cdr (assoc name args :test #'string=))))) (let ((type-list (delete-if #'(lambda (type-number) (let ((name (find-foreign-type-name type-number))) (or (getf (type-options type-number) :ignore) (find-if #'(lambda (options) (and (string-prefix-p (first options) name) (getf (cdr options) :ignore-prefix) (not (some #'(lambda (exception) (string= name exception)) (getf (cdr options) :except))))) args)))) (find-types prefix)))) (dolist (type-number type-list) (let ((name (find-foreign-type-name type-number))) (register-type (getf (type-options type-number) :type (default-type-name name)) (register-type-as type-number)))) ;; This is needed for some unknown reason to get type numbers right (mapc #'find-type-dependencies type-list) (let ((sorted-type-list #+clisp (mapcar #'list type-list) #-clisp (sort-types-topologicaly (mapcar #'(lambda (type) (cons type (find-type-dependencies type (type-options type)))) type-list)))) `(progn ,@(mapcar #'(lambda (pair) (destructuring-bind (type . forward-p) pair (expand-type-definition type forward-p (type-options type)))) sorted-type-list) ,@(mapcar #'(lambda (pair) (destructuring-bind (type . forward-p) pair (when forward-p (expand-type-definition type nil (type-options type))))) sorted-type-list)))))) (defmacro define-types-by-introspection (prefix &rest args) (expand-type-definitions prefix args)) (defexport define-types-by-introspection (prefix &rest args) (list-autoexported-symbols (expand-type-definitions prefix args))) ;;;; Initialize all non static types in GObject (init-types-in-library glib "libgobject-2.0")