(has-reference
:type boolean
:accessor g-object-has-reference
- :initform nil)))
+ :initform nil))
+ (:documentation
+ "Base class for GObject classes hierarchy."))
(defvar *foreign-gobjects* (make-weak-hash-table :test 'equal :weakness :value))
(defvar *foreign-gobjects-ref-count* (make-hash-table :test 'equal))
(defvar *lisp-objects-pointers* (make-hash-table :test 'equal))
(defvar *current-creating-object* nil)
-(defcstruct g-object-struct
- (type-instance g-type-instance)
- (ref-count :uint)
- (qdata :pointer))
-
(defun ref-count (pointer)
- (foreign-slot-value (if (pointerp pointer) pointer (pointer pointer)) 'g-object-struct 'ref-count))
+ (foreign-slot-value (if (pointerp pointer) pointer (pointer pointer)) 'g-object-struct :ref-count))
(defmethod initialize-instance :around ((obj g-object) &key)
(let ((*current-creating-object* obj))
(gethash (pointer-address pointer) *foreign-gobjects*)
(gethash (pointer-address pointer) *foreign-gobjects-ref-count*)
(ref-count pointer))
- (awhen (gethash (pointer-address pointer) *foreign-gobjects*)
- (setf (pointer it) nil)
- (cancel-finalization it))
+ (let ((object (gethash (pointer-address pointer) *foreign-gobjects*)))
+ (when object
+ (setf (pointer object) nil)
+ (cancel-finalization object)))
(remhash (pointer-address pointer) *foreign-gobjects*)
(remhash (pointer-address pointer) *foreign-gobjects-ref-count*)
(g-object-unref pointer))
(defun registered-object-type-by-name (name)
(gethash name *registered-object-types*))
(defun get-g-object-lisp-type (g-type)
+ (setf g-type (ensure-g-type g-type))
(loop
while (not (zerop g-type))
for lisp-type = (gethash (g-type-name g-type) *registered-object-types*)
when lisp-type do (return lisp-type)
- do (setf g-type (g-type-parent g-type))))
+ do (setf g-type (ensure-g-type (g-type-parent g-type)))))
(defun make-g-object-from-pointer (pointer)
(let* ((g-type (g-type-from-instance pointer))
(unless lisp-type
(error "Type ~A is not registered with REGISTER-OBJECT-TYPE"
(g-type-name g-type)))
+ (g-object-ref pointer)
(make-instance lisp-type :pointer pointer)))
(define-foreign-type foreign-g-object-type ()
(defmethod translate-to-foreign (object (type foreign-g-object-type))
(cond
+ ((null object)
+ (null-pointer))
+ ((pointerp object) object)
((null (pointer object))
(error "Object ~A has been disposed" object))
((typep object 'g-object)
nil
"Object ~A is not a subtype of ~A" object (sub-type type))
(pointer object))
- ((pointerp object) object)
(t (error "Object ~A is not translatable as GObject*" object))))
(defun get-g-object-for-pointer (pointer)
(unless (null-pointer-p pointer)
- (aif (gethash (pointer-address pointer) *foreign-gobjects*)
- (prog1 it
- (incf (gethash (pointer-address pointer) *foreign-gobjects-ref-count*))
- (debugf "increfering object ~A~%" pointer))
- (make-g-object-from-pointer pointer))))
+ (let ((object (gethash (pointer-address pointer) *foreign-gobjects*)))
+ (if object
+ (prog1 object
+ (incf (gethash (pointer-address pointer) *foreign-gobjects-ref-count*))
+ (debugf "increfering object ~A~%" pointer))
+ (make-g-object-from-pointer pointer)))))
(defmethod translate-from-foreign (pointer (type foreign-g-object-type))
(get-g-object-for-pointer pointer))
(register-object-type "GObject" 'g-object)
(defun ensure-g-type (type)
+ "Returns the GType value for a given type. If type is an integer, it is returned. If type is a string, GType corresponding to this type name is looked up and returned.
+@arg[type]{a string or and integer}
+@return{integer equal to GType of @code{type}}"
(etypecase type
(integer type)
(string (or (g-type-from-name type)
(etypecase object
(g-object (pointer object)))))
-(defun g-param-spec-property-type (param-spec property-name object-type assert-readable assert-writable)
- (when (null-pointer-p param-spec)
- (error "Property ~A on type ~A is not found"
- property-name
- (g-type-name object-type)))
- (when (and assert-readable
- (not (member :readable
- (foreign-slot-value param-spec
- 'g-param-spec
- 'flags))))
- (error "Property ~A on type ~A is not readable"
- property-name
- (g-type-name object-type)))
- (when (and assert-writable
- (not (member :writable
- (foreign-slot-value param-spec
- 'g-param-spec
- 'flags))))
- (error "Property ~A on type ~A is not writable"
- property-name
- (g-type-name object-type)))
- (foreign-slot-value param-spec 'g-param-spec 'value-type))
-
-(defun g-object-type-property-type (object-type property-name
- &key assert-readable assert-writable)
- (let* ((object-class (g-type-class-ref object-type))
- (param-spec (g-object-class-find-property object-class property-name)))
- (unwind-protect
- (g-param-spec-property-type param-spec property-name object-type assert-readable assert-writable)
- (g-type-class-unref object-class))))
-
-(defun g-object-property-type (object property-name
- &key assert-readable assert-writable)
- (g-object-type-property-type (g-type-from-object (ensure-object-pointer object))
- property-name
- :assert-readable assert-readable
- :assert-writable assert-writable))
-
-(defun g-object-call-constructor (object-type args-names args-values
- &optional args-types)
- (setf object-type (ensure-g-type object-type))
- (unless args-types
- (setf args-types
- (mapcar (lambda (name)
- (g-object-type-property-type object-type name))
- args-names)))
- (let ((args-count (length args-names)))
- (with-foreign-object (parameters 'g-parameter args-count)
- (loop
- for i from 0 below args-count
- for arg-name in args-names
- for arg-value in args-values
- for arg-type in args-types
- for arg-g-type = (ensure-g-type arg-type)
- for parameter = (mem-aref parameters 'g-parameter i)
- do (setf (foreign-slot-value parameter 'g-parameter 'name) arg-name)
- do (set-g-value (foreign-slot-value parameter 'g-parameter 'value)
- arg-value arg-g-type
- :zero-g-value t))
- (unwind-protect
- (g-object-newv object-type args-count parameters)
- (loop
- for i from 0 below args-count
- for parameter = (mem-aref parameters 'g-parameter i)
- do (foreign-free
- (mem-ref (foreign-slot-pointer parameter 'g-parameter 'name)
- :pointer))
- do (g-value-unset
- (foreign-slot-pointer parameter 'g-parameter 'value)))))))
-
-(defun g-object-call-get-property (object property-name &optional property-type)
- (unless property-type
- (setf property-type
- (g-object-property-type object property-name :assert-readable t)))
- (setf property-type (ensure-g-type property-type))
- (with-foreign-object (value 'g-value)
- (g-value-zero value)
- (g-value-init value property-type)
- (g-object-get-property (ensure-object-pointer object)
- property-name value)
- (unwind-protect
- (parse-gvalue value)
- (g-value-unset value))))
-
-(defun g-object-call-set-property (object property-name new-value
- &optional property-type)
- (unless property-type
- (setf property-type
- (g-object-property-type object property-name :assert-writable t)))
- (setf property-type (ensure-g-type property-type))
- (with-foreign-object (value 'g-value)
- (set-g-value value new-value property-type :zero-g-value t)
- (unwind-protect
- (g-object-set-property (ensure-object-pointer object)
- property-name value)
- (g-value-unset value))))
\ No newline at end of file
+(defun parse-gvalue-object (gvalue)
+ (get-g-object-for-pointer (g-value-get-object gvalue)))
+
+(defun set-gvalue-object (gvalue value)
+ (g-value-set-object gvalue (if value (pointer value) (null-pointer))))
+
+(defmethod parse-gvalue-for-type (gvalue-ptr (type-numeric (eql +g-type-object+)))
+ (parse-gvalue-object gvalue-ptr))
+
+(defmethod parse-gvalue-for-type (gvalue-ptr (type-numeric (eql +g-type-interface+)))
+ (parse-gvalue-object gvalue-ptr))
+
+(defmethod set-gvalue-for-type (gvalue-ptr (type-numeric (eql +g-type-object+)) value)
+ (set-gvalue-object gvalue-ptr value))
+
+(defmethod set-gvalue-for-type (gvalue-ptr (type-numeric (eql +g-type-interface+)) value)
+ (set-gvalue-object gvalue-ptr value))
+
+(defun g-signal-connect (object signal handler &key after)
+ "Deprecated alias for @fun{connect-signal}"
+ (connect-signal object signal handler :after after))
+
+(defun connect-signal (object signal handler &key after)
+ "Connects the function to a signal for a particular object.
+If @code{after} is true, then the function will be called after the default handler of the signal.
+
+@arg[object]{an instance of @class{gobject}}
+@arg[signal]{a string; names the signal}
+@arg[handler]{a function; handles the signal. Number (and type) of arguments and return value type depends on the signal}
+@arg[after]{a boolean}"
+ (g-signal-connect-closure (ensure-object-pointer object)
+ signal
+ (create-g-closure handler)
+ after))
+
+(defun emit-signal (object signal-name &rest args)
+ "Emits the signal.
+@arg[object]{an instance of @class{g-object}. Signal is emitted on this object}
+@arg[signal-name]{a string specifying the signal}
+@arg[args]{arguments for the signal}
+@return{none}"
+ (let* ((object-type (g-type-from-object (pointer object)))
+ (signal-info (parse-signal-name object-type signal-name)))
+ (unless signal-info
+ (error "Signal ~A not found on object ~A" signal-name object))
+ (let ((params-count (length (signal-info-param-types signal-info))))
+ (with-foreign-object (params 'g-value (1+ params-count))
+ (set-g-value (mem-aref params 'g-value 0) object object-type :zero-g-value t)
+ (iter (for i from 0 below params-count)
+ (for arg in args)
+ (for type in (signal-info-param-types signal-info))
+ (set-g-value (mem-aref params 'g-value (1+ i)) arg type :zero-g-value t))
+ (prog1
+ (if (= (g-type-numeric (signal-info-return-type signal-info)) +g-type-void+)
+ (g-signal-emitv params (signal-info-id signal-info) signal-name (null-pointer))
+ (with-foreign-object (return-value 'g-value)
+ (g-value-zero return-value)
+ (g-value-init return-value (signal-info-return-type signal-info))
+ (prog1 (parse-gvalue return-value)
+ (g-value-unset return-value))))
+ (iter (for i from 0 below (1+ params-count))
+ (g-value-unset (mem-aref params 'g-value i))))))))