;; Common Lisp bindings for GTK+ v2.0 ;; Copyright (C) 2000-2001 Espen S. Johnsen ;; ;; This library is free software; you can redistribute it and/or ;; modify it under the terms of the GNU Lesser General Public ;; License as published by the Free Software Foundation; either ;; version 2 of the License, or (at your option) any later version. ;; ;; This library 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 ;; Lesser General Public License for more details. ;; ;; You should have received a copy of the GNU Lesser General Public ;; License along with this library; if not, write to the Free Software ;; Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ;; $Id: gtype.lisp,v 1.12 2001-10-21 21:50:18 espen Exp $ (in-package "GLIB") (use-prefix "g") ;;;; (deftype type-number () '(unsigned 32)) (eval-when (:compile-toplevel :load-toplevel :execute) (defclass type-query (struct) ((type-number :allocation :alien :type type-number) (name :allocation :alien :type string) (class-size :allocation :alien :type unsigned-int) (instance-size :allocation :alien :type unsigned-int)) (:metaclass proxy-class))) (defbinding %type-query () nil (type type-number) (query type-query)) (defun type-query (type) (let ((query (make-instance 'type-query))) (%type-query (find-type-number type t) query) query)) (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 (type) nil ((find-type-number type t) type-number)) (defbinding type-class-peek (type) pointer ((find-type-number type t) type-number)) ;;;; Mapping between lisp types and glib types (defvar *type-to-number-hash* (make-hash-table)) (defvar *number-to-type-hash* (make-hash-table)) (defun register-type (type id) (let ((type-number (etypecase id (integer id) (string (find-type-number id t))))) (setf (gethash type *type-to-number-hash*) type-number) (setf (gethash type-number *number-to-type-hash*) type) type-number)) (defbinding %type-from-name () type-number (name string)) (defun find-type-number (type &optional error) (etypecase type (integer type) (string (let ((type-number (%type-from-name type))) (cond ((and (zerop type-number) error) (error "Invalid alien type name: ~A" type)) ((zerop type-number) nil) (t type-number)))) (symbol (let ((type-number (gethash type *type-to-number-hash*))) (or type-number (and error (error "Type not registered: ~A" type))))) (pcl::class (find-type-number (class-name type) error)))) (defun type-from-number (type-number &optional error) (multiple-value-bind (type found) (gethash type-number *number-to-type-hash*) (when (and error (not found)) (let ((name (find-type-name type-number))) (if name (error "Type number not registered: ~A (~A)" type-number name) (error "Invalid type number: ~A" type-number)))) type)) (defun type-from-name (name) (etypecase name (string (type-from-number (find-type-number name t))))) (defbinding (find-type-name "g_type_name") (type) string ((find-type-number type t) type-number)) (defun type-number-of (object) (find-type-number (type-of object) t)) (defun init-type (init) (mapc #'(lambda (fname) (funcall (mkbinding fname 'type-number))) (mklist init))) (defun %init-types-in-library (pathname ignore) (let ((process (ext:run-program "nm" (list (namestring (truename pathname))) :output :stream :wait nil)) (fnames ())) (labels ((read-symbols () (let ((line (read-line (ext:process-output process) nil))) (when line (let ((symbol (subseq line 11))) (when (and (search "_get_type" symbol) (not (member symbol ignore :test #'string=))) (push symbol fnames))) (read-symbols))))) (read-symbols) (ext:process-close process) `(init-type ',fnames)))) (defmacro init-types-in-library (pathname &key ignore) (%init-types-in-library pathname ignore)) ;;;; Superclass for wrapping types in the glib type system (eval-when (:compile-toplevel :load-toplevel :execute) (defclass ginstance (proxy) ((class :allocation :alien :type pointer)) (:metaclass proxy-class))) (defun %type-of-ginstance (location) (let ((class (sap-ref-sap location 0))) (type-from-number (sap-ref-unsigned class 0)))) (deftype-method translate-from-alien ginstance (type-spec location &optional weak-ref) (declare (ignore type-spec)) `(let ((location ,location)) (unless (null-pointer-p location) (ensure-proxy-instance (%type-of-ginstance location) location ,weak-ref)))) ;;;; Metaclass for subclasses of ginstance (eval-when (:compile-toplevel :load-toplevel :execute) (defclass ginstance-class (proxy-class))) (defmethod shared-initialize ((class ginstance-class) names &rest initargs &key name alien-name size ref unref) (declare (ignore initargs names)) (let* ((class-name (or name (class-name class))) (type-number (find-type-number (or (first alien-name) (default-alien-type-name class-name)) t))) (register-type class-name type-number) (let ((size (or size (type-instance-size type-number)))) (declare (special size)) (call-next-method))) (when ref (let ((ref (mkbinding (first ref) 'pointer 'pointer))) (setf (slot-value class 'copy) #'(lambda (type location) (declare (ignore type)) (funcall ref location))))) (when unref (let ((unref (mkbinding (first unref) 'nil 'pointer))) (setf (slot-value class 'free) #'(lambda (type location) (declare (ignore type)) (funcall unref location)))))) (defmethod validate-superclass ((class ginstance-class) (super pcl::standard-class)) (subtypep (class-name super) 'ginstance)) ;;;; Registering fundamental types (register-type 'pointer "gpointer") (register-type 'char "gchar") (register-type 'unsigned-char "guchar") (register-type 'boolean "gboolean") (register-type 'fixnum "gint") (register-type 'int "gint") (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") ;;;; (defvar *derivable-type-info* (make-hash-table)) (defun register-derivable-type (type id expander) (register-type type id) (let ((type-number (register-type type id))) (setf (gethash type-number *derivable-type-info*) expander))) (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 options) (let ((expander (find-type-info type))) (funcall expander (find-type-number type t) options))) (defbinding type-parent (type) type-number ((find-type-number type t) type-number)) (defun supertype (type) (type-from-number (type-parent 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-array 'nil #'(lambda (type-number) (when (or (not prefix) (string-prefix-p prefix (find-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 %sort-types-topologicaly (unsorted) (let ((sorted ())) (loop while unsorted do (dolist (type unsorted) (let ((dependencies (rest (type-hierarchy type)))) (cond ((null dependencies) (push type sorted) (setq unsorted (delete type unsorted))) (t (unless (dolist (dep dependencies) (when (find type (rest (type-hierarchy dep))) (error "Cyclic type dependencie")) (return-if (find dep unsorted))) (push type sorted) (setq unsorted (delete type unsorted)))))))) (nreverse sorted))) (defun expand-type-definitions (prefix &optional args) (flet ((type-options (type-number) (let ((name (find-type-name type-number))) (cdr (assoc name args :test #'string=))))) (let ((type-list (delete-if #'(lambda (type-number) (let ((name (find-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))) args)))) (find-types prefix)))) (dolist (type-number type-list) (let ((name (find-type-name type-number))) (register-type (getf (type-options type-number) :type (default-type-name name)) type-number))) `(progn ,@(mapcar #'(lambda (type) (expand-type-definition type (type-options type))) (%sort-types-topologicaly type-list)))))) (defmacro define-types-by-introspection (prefix &rest args) (expand-type-definitions prefix args))