(in-package :gobject) (define-foreign-type g-boxed-foreign-type () ((info :initarg :info :accessor g-boxed-foreign-info :initform (error "info must be specified")) (return-p :initarg :return-p :accessor g-boxed-foreign-return-p :initform nil)) (:actual-type :pointer)) (eval-when (:compile-toplevel :load-toplevel :execute) (defstruct g-boxed-info name g-type)) (eval-when (:compile-toplevel :load-toplevel :execute) (defun get-g-boxed-foreign-info (name) (get name 'g-boxed-foreign-info))) (defvar *g-type-name->g-boxed-foreign-info* (make-hash-table :test 'equal)) (defun get-g-boxed-foreign-info-for-gtype (g-type-designator) (or (gethash (gtype-name (gtype g-type-designator)) *g-type-name->g-boxed-foreign-info*) (error "Unknown GBoxed type '~A'" (gtype-name (gtype g-type-designator))))) (defgeneric make-foreign-type (info &key return-p)) (define-parse-method g-boxed-foreign (name &rest options) (let ((info (get-g-boxed-foreign-info name))) (assert info nil "Unknown foreign GBoxed type ~A" name) (make-foreign-type info :return-p (member :return options)))) (defgeneric boxed-copy-fn (type-info native) (:method (type-info native) (g-boxed-copy (g-boxed-info-g-type type-info) native))) #+nil(defmethod boxed-copy-fn :before (type-info native) (format t "(boxed-copy-fn ~A ~A)~%" (g-boxed-info-name type-info) native)) (defgeneric boxed-free-fn (type-info native) (:method (type-info native) (g-boxed-free (g-boxed-info-g-type type-info) native))) #+nil(defmethod boxed-free-fn :before (type-info native) (format t "(boxed-free-fn ~A ~A)~%" (g-boxed-info-name type-info) native)) (defgeneric has-callback-cleanup (foreign-type)) (defgeneric cleanup-translated-object-for-callback (foreign-type converted-object native-object)) (defmethod has-callback-cleanup ((type g-boxed-foreign-type)) t) (eval-when (:load-toplevel :compile-toplevel :execute) (defstruct (g-boxed-cstruct-wrapper-info (:include g-boxed-info)) cstruct-description)) (defclass boxed-cstruct-foreign-type (g-boxed-foreign-type) ()) (defstruct cstruct-slot-description name type count initform inline-p) (defstruct (cstruct-inline-slot-description (:include cstruct-slot-description)) boxed-type-name) (defmethod make-load-form ((object cstruct-slot-description) &optional environment) (make-load-form-saving-slots object :environment environment)) (defmethod make-load-form ((object cstruct-inline-slot-description) &optional environment) (make-load-form-saving-slots object :environment environment)) (defstruct cstruct-description name slots) (defmethod make-load-form ((object cstruct-description) &optional environment) (make-load-form-saving-slots object :environment environment)) (defun parse-cstruct-slot (slot) (destructuring-bind (name type &key count initform inline) slot (if inline (make-cstruct-inline-slot-description :name name :type (generated-cunion-name type) :count count :initform initform :inline-p inline :boxed-type-name type) (make-cstruct-inline-slot-description :name name :type type :count count :initform initform :inline-p inline)))) (defun parse-cstruct-definition (name slots) (make-cstruct-description :name name :slots (mapcar #'parse-cstruct-slot slots))) (defmacro define-g-boxed-cstruct (name g-type-name &body slots) (let ((cstruct-description (parse-cstruct-definition name slots)) (cstruct-name (generated-cstruct-name name)) (cunion-name (generated-cunion-name name))) `(progn (defstruct ,name ,@(iter (for slot in (cstruct-description-slots cstruct-description)) (for name = (cstruct-slot-description-name slot)) (for initform = (cstruct-slot-description-initform slot)) (collect (list name initform)))) (defcstruct ,cstruct-name ,@(iter (for slot in (cstruct-description-slots cstruct-description)) (for name = (cstruct-slot-description-name slot)) (for type = (cstruct-slot-description-type slot)) (for count = (cstruct-slot-description-count slot)) (collect `(,name ,type ,@(when count `(:count ,count)))))) (defctype ,cstruct-name (:struct ,cstruct-name)) (defcunion ,cunion-name (,name ,cstruct-name)) (defctype ,cunion-name (:union ,cunion-name)) (eval-when (:compile-toplevel :load-toplevel :execute) (setf (get ',name 'g-boxed-foreign-info) (make-g-boxed-cstruct-wrapper-info :name ',name :g-type ,g-type-name :cstruct-description ,cstruct-description) (gethash ,g-type-name *g-type-name->g-boxed-foreign-info*) (get ',name 'g-boxed-foreign-info) (get ',name 'structure-constructor) ',(intern (format nil "MAKE-~A" (symbol-name name)) (symbol-package name))))))) (defmethod make-foreign-type ((info g-boxed-cstruct-wrapper-info) &key return-p) (make-instance 'boxed-cstruct-foreign-type :info info :return-p return-p)) (defun memcpy (target source bytes) (iter (for i from 0 below bytes) (setf (mem-aref target :uchar i) (mem-aref source :uchar i)))) (defmethod boxed-copy-fn ((info g-boxed-cstruct-wrapper-info) native) (if (g-boxed-info-g-type info) (g-boxed-copy (g-boxed-info-g-type info) native) (let ((copy (foreign-alloc (generated-cstruct-name (g-boxed-info-name info))))) (memcpy copy native (foreign-type-size (generated-cstruct-name (g-boxed-info-name info)))) copy))) (defmethod boxed-free-fn ((info g-boxed-cstruct-wrapper-info) native) (if (g-boxed-info-g-type info) (g-boxed-free (g-boxed-info-g-type info) native) (foreign-free native))) (defun copy-slots-to-native (proxy native cstruct-description) (iter (with cstruct-type = (generated-cstruct-name (cstruct-description-name cstruct-description))) (for slot in (cstruct-description-slots cstruct-description)) (for slot-name = (cstruct-slot-description-name slot)) (cond ((cstruct-slot-description-count slot) (iter (with ptr = (foreign-slot-pointer native cstruct-type slot-name)) (with array = (slot-value proxy slot-name)) (for i from 0 below (cstruct-slot-description-count slot)) (setf (mem-aref ptr (cstruct-slot-description-type slot) i) (aref array i)))) ((cstruct-slot-description-inline-p slot) (let ((info (get-g-boxed-foreign-info (cstruct-inline-slot-description-boxed-type-name slot)))) (copy-slots-to-native (slot-value proxy slot-name) (foreign-slot-pointer native cstruct-type slot-name) (g-boxed-cstruct-wrapper-info-cstruct-description info)))) (t (setf (foreign-slot-value native cstruct-type slot-name) (slot-value proxy slot-name)))))) (defun create-structure (structure-name) (let ((constructor (get structure-name 'structure-constructor))) (assert constructor nil "Don't know how to create structure of type ~A" structure-name) (funcall constructor))) (defun copy-slots-to-proxy (proxy native cstruct-description) (iter (with cstruct-type = (generated-cstruct-name (cstruct-description-name cstruct-description))) (for slot in (cstruct-description-slots cstruct-description)) (for slot-name = (cstruct-slot-description-name slot)) (cond ((cstruct-slot-description-count slot) (setf (slot-value proxy slot-name) (make-array (list (cstruct-slot-description-count slot)))) (iter (with ptr = (foreign-slot-pointer native cstruct-type slot-name)) (with array = (slot-value proxy slot-name)) (for i from 0 below (cstruct-slot-description-count slot)) (setf (aref array i) (mem-aref ptr (cstruct-slot-description-type slot) i)))) ((cstruct-slot-description-inline-p slot) (let ((info (get-g-boxed-foreign-info (cstruct-inline-slot-description-boxed-type-name slot)))) (setf (slot-value proxy slot-name) (create-structure (cstruct-inline-slot-description-boxed-type-name slot))) (copy-slots-to-proxy (slot-value proxy slot-name) (foreign-slot-pointer native cstruct-type slot-name) (g-boxed-cstruct-wrapper-info-cstruct-description info)))) (t (setf (slot-value proxy slot-name) (foreign-slot-value native cstruct-type slot-name)))))) (defmethod translate-to-foreign (proxy (type boxed-cstruct-foreign-type)) (if (null proxy) (null-pointer) (let* ((info (g-boxed-foreign-info type)) (native-structure-type (generated-cstruct-name (g-boxed-info-name info)))) (with-foreign-object (native-structure native-structure-type) (copy-slots-to-native proxy native-structure (g-boxed-cstruct-wrapper-info-cstruct-description info)) (values (boxed-copy-fn info native-structure) proxy))))) (defmethod free-translated-object (native-structure (type boxed-cstruct-foreign-type) proxy) (when proxy (let ((info (g-boxed-foreign-info type))) (copy-slots-to-proxy proxy native-structure (g-boxed-cstruct-wrapper-info-cstruct-description info)) (boxed-free-fn info native-structure)))) (defmethod translate-from-foreign (native-structure (type boxed-cstruct-foreign-type)) (unless (null-pointer-p native-structure) (let* ((info (g-boxed-foreign-info type)) (proxy-structure-type (g-boxed-info-name info)) (proxy (create-structure proxy-structure-type))) (copy-slots-to-proxy proxy native-structure (g-boxed-cstruct-wrapper-info-cstruct-description info)) (when (g-boxed-foreign-return-p type) (boxed-free-fn info native-structure)) proxy))) (defmethod cleanup-translated-object-for-callback ((type boxed-cstruct-foreign-type) proxy native-structure) (when proxy (let ((info (g-boxed-foreign-info type))) (copy-slots-to-native proxy native-structure (g-boxed-cstruct-wrapper-info-cstruct-description info))))) (eval-when (:compile-toplevel :load-toplevel :execute) (defstruct (g-boxed-opaque-wrapper-info (:include g-boxed-info)) alloc free)) (define-foreign-type boxed-opaque-foreign-type (g-boxed-foreign-type) ()) (defclass g-boxed-opaque () ((pointer :initarg :pointer :initform nil :accessor g-boxed-opaque-pointer))) (defmethod pointer ((object g-boxed-opaque)) (g-boxed-opaque-pointer object)) (defmethod make-foreign-type ((info g-boxed-opaque-wrapper-info) &key return-p) (make-instance 'boxed-opaque-foreign-type :info info :return-p return-p)) (defmethod translate-to-foreign (proxy (type boxed-opaque-foreign-type)) (if (null proxy) (null-pointer) (prog1 (g-boxed-opaque-pointer proxy) (when (g-boxed-foreign-return-p type) (tg:cancel-finalization proxy) (setf (g-boxed-opaque-pointer proxy) nil))))) (defmethod free-translated-object (native (type boxed-opaque-foreign-type) param) (declare (ignore native type param))) (defvar *gboxed-gc-hooks-lock* (make-recursive-lock "gboxed-gc-hooks-lock")) (defvar *gboxed-gc-hooks* nil);;pointers to objects to be freed (defun activate-gboxed-gc-hooks () (with-recursive-lock-held (*gboxed-gc-hooks-lock*) (when *gboxed-gc-hooks* (log-for :gc "activating gc hooks for boxeds: ~A~%" *gboxed-gc-hooks*) (loop for (pointer type) in *gboxed-gc-hooks* do (boxed-free-fn type pointer)) (setf *gboxed-gc-hooks* nil)))) (defcallback gboxed-idle-gc-hook :boolean ((data :pointer)) (declare (ignore data)) (activate-gboxed-gc-hooks) nil) (defun register-gboxed-for-gc (type pointer) (with-recursive-lock-held (*gboxed-gc-hooks-lock*) (let ((locks-were-present (not (null *gboxed-gc-hooks*)))) (push (list pointer type) *gboxed-gc-hooks*) (unless locks-were-present (log-for :gc "adding gboxed idle-gc-hook to main loop~%") (g-idle-add (callback gboxed-idle-gc-hook) (null-pointer)))))) (defun make-boxed-free-finalizer (type pointer) (lambda () (register-gboxed-for-gc type pointer))) (defmethod translate-from-foreign (native (foreign-type boxed-opaque-foreign-type)) (let* ((type (g-boxed-foreign-info foreign-type)) (proxy (make-instance (g-boxed-info-name type) :pointer native))) proxy)) (defmethod cleanup-translated-object-for-callback ((type boxed-opaque-foreign-type) proxy native) (declare (ignore native)) (tg:cancel-finalization proxy) (setf (g-boxed-opaque-pointer proxy) nil)) (defmacro define-g-boxed-opaque (name g-type-name &key (alloc (error "Alloc must be specified"))) (let ((native-copy (gensym "NATIVE-COPY-")) (instance (gensym "INSTANCE-"))) `(progn (defclass ,name (g-boxed-opaque) ()) (defmethod initialize-instance :after ((,instance ,name) &key &allow-other-keys) (unless (g-boxed-opaque-pointer ,instance) (let ((,native-copy ,alloc)) (setf (g-boxed-opaque-pointer ,instance) ,native-copy) (finalize ,instance (make-boxed-free-finalizer (get ',name 'g-boxed-foreign-info) ,native-copy))))) (eval-when (:compile-toplevel :load-toplevel :execute) (setf (get ',name 'g-boxed-foreign-info) (make-g-boxed-opaque-wrapper-info :name ',name :g-type ,g-type-name) (gethash ,g-type-name *g-type-name->g-boxed-foreign-info*) (get ',name 'g-boxed-foreign-info)))))) (defstruct var-structure name parent slots discriminator-slot variants resulting-cstruct-description) (defstruct var-structure-variant discriminating-values structure) (defmethod make-load-form ((object var-structure) &optional env) (make-load-form-saving-slots object :environment env)) (defmethod make-load-form ((object var-structure-variant) &optional env) (make-load-form-saving-slots object :environment env)) (defun var-struct-all-slots (struct) (when struct (append (var-struct-all-slots (var-structure-parent struct)) (var-structure-slots struct)))) (defun all-structures (structure) (append (iter (for variant in (var-structure-variants structure)) (appending (all-structures (var-structure-variant-structure variant)))) (list structure))) (defun parse-variant-structure-definition (name slots &optional parent) (iter (with result = (make-var-structure :name name :parent parent :slots nil :discriminator-slot nil :variants nil)) (for slot in slots) (if (eq :variant (first slot)) (progn (when (var-structure-discriminator-slot result) (error "Structure has more than one discriminator slot")) (setf (var-structure-discriminator-slot result) (second slot) (var-structure-variants result) (parse-variants result (nthcdr 2 slot)))) (push (parse-cstruct-slot slot) (var-structure-slots result))) (finally (setf (var-structure-slots result) (reverse (var-structure-slots result))) (unless parent (set-variant-result-structure result)) (return result)))) (defun set-variant-result-structure (var-structure) (setf (var-structure-resulting-cstruct-description var-structure) (make-cstruct-description :name (var-structure-name var-structure) :slots (append (when (var-structure-parent var-structure) (cstruct-description-slots (var-structure-resulting-cstruct-description (var-structure-parent var-structure)))) (var-structure-slots var-structure)))) (iter (for variant in (var-structure-variants var-structure)) (for child-var-structure = (var-structure-variant-structure variant)) (set-variant-result-structure child-var-structure))) (defun ensure-list (thing) (if (listp thing) thing (list thing))) (defun parse-variants (parent variants) (iter (for (options variant-name . slots) in variants) (for variant = (make-var-structure-variant :discriminating-values (ensure-list options) :structure (parse-variant-structure-definition variant-name slots parent))) (collect variant))) (defun generated-cstruct-name (symbol) (intern (format nil "~A-CSTRUCT" (symbol-name symbol)) (symbol-package symbol))) (defun generated-cunion-name (symbol) (intern (format nil "~A-CUNION" (symbol-name symbol)) (symbol-package symbol))) (defun generate-cstruct-1 (struct) (let ((cstruct-name (generated-cstruct-name (cstruct-description-name struct)))) `((defcstruct ,cstruct-name ,@(iter (for slot in (cstruct-description-slots struct)) (collect `(,(cstruct-slot-description-name slot) ,(cstruct-slot-description-type slot) ,@(when (cstruct-slot-description-count slot) `(:count ,(cstruct-slot-description-count slot))))))) (defctype ,cstruct-name (:struct ,cstruct-name))))) (defun generate-c-structures (structure) (iter (for str in (all-structures structure)) (for cstruct = (var-structure-resulting-cstruct-description str)) (nconcing (generate-cstruct-1 cstruct)))) (defun generate-variant-union (struct) (let ((cunion-name (generated-cunion-name (var-structure-name struct)))) `((defcunion ,cunion-name ,@(iter (for str in (all-structures struct)) (collect `(,(var-structure-name str) ,(generated-cstruct-name (var-structure-name str)))))) (defctype ,cunion-name (:union ,cunion-name))))) (defun generate-structure-1 (str) (let ((name (var-structure-name str))) `(progn (defstruct ,(if (var-structure-parent str) `(,(var-structure-name str) (:include ,(var-structure-name (var-structure-parent str)) (,(var-structure-discriminator-slot (var-structure-parent str)) ,(first (var-structure-variant-discriminating-values (find str (var-structure-variants (var-structure-parent str)) :key #'var-structure-variant-structure)))))) `,(var-structure-name str)) ,@(iter (for slot in (var-structure-slots str)) (collect `(,(cstruct-slot-description-name slot) ,(cstruct-slot-description-initform slot))))) (setf (get ',name 'structure-constructor) ',(intern (format nil "MAKE-~A" (symbol-name name)) (symbol-package name)))))) (defun generate-structures (str) (iter (for variant in (reverse (all-structures str))) (collect (generate-structure-1 variant)))) (defun generate-native-type-decision-procedure-1 (str proxy-var) (if (null (var-structure-discriminator-slot str)) `(values ',(var-structure-resulting-cstruct-description str)) `(typecase ,proxy-var ,@(iter (for variant in (var-structure-variants str)) (for v-str = (var-structure-variant-structure variant)) (collect `(,(var-structure-name v-str) ,(generate-native-type-decision-procedure-1 v-str proxy-var)))) (,(var-structure-name str) (values ',(var-structure-resulting-cstruct-description str)))))) (defun generate-proxy-type-decision-procedure-1 (str native-var) (if (null (var-structure-discriminator-slot str)) `(values ',(var-structure-name str) ',(var-structure-resulting-cstruct-description str)) `(case (foreign-slot-value ,native-var ',(generated-cstruct-name (var-structure-name str)) ',(var-structure-discriminator-slot str)) ,@(iter (for variant in (var-structure-variants str)) (for v-str = (var-structure-variant-structure variant)) (collect `(,(var-structure-variant-discriminating-values variant) ,(generate-proxy-type-decision-procedure-1 v-str native-var)))) (t (values ',(var-structure-name str) ',(var-structure-resulting-cstruct-description str)))))) (defun generate-proxy-type-decision-procedure (str) (let ((native (gensym "NATIVE-"))) `(lambda (,native) (declare (ignorable ,native)) ,(generate-proxy-type-decision-procedure-1 str native)))) (defun generate-native-type-decision-procedure (str) (let ((proxy (gensym "PROXY-"))) `(lambda (,proxy) (declare (ignorable ,proxy)) ,(generate-native-type-decision-procedure-1 str proxy)))) (defun compile-proxy-type-decision-procedure (str) (compile nil (generate-proxy-type-decision-procedure str))) (defun compile-native-type-decision-procedure (str) (compile nil (generate-native-type-decision-procedure str))) (defstruct (g-boxed-variant-cstruct-info (:include g-boxed-info)) root native-type-decision-procedure proxy-type-decision-procedure) (defmethod make-load-form ((object g-boxed-variant-cstruct-info) &optional env) (make-load-form-saving-slots object :environment env)) (define-foreign-type boxed-variant-cstruct-foreign-type (g-boxed-foreign-type) ()) (defmethod make-foreign-type ((info g-boxed-variant-cstruct-info) &key return-p) (make-instance 'boxed-variant-cstruct-foreign-type :info info :return-p return-p)) (defmacro define-g-boxed-variant-cstruct (name g-type-name &body slots) (let* ((structure (parse-variant-structure-definition name slots))) `(progn ,@(generate-c-structures structure) ,@(generate-variant-union structure) ,@(generate-structures structure) (eval-when (:compile-toplevel :load-toplevel :execute) (setf (get ',name 'g-boxed-foreign-info) (make-g-boxed-variant-cstruct-info :name ',name :g-type ,g-type-name :root ,structure :native-type-decision-procedure ,(generate-native-type-decision-procedure structure) :proxy-type-decision-procedure ,(generate-proxy-type-decision-procedure structure)) (gethash ,g-type-name *g-type-name->g-boxed-foreign-info*) (get ',name 'g-boxed-foreign-info)))))) (defun decide-native-type (info proxy) (funcall (g-boxed-variant-cstruct-info-native-type-decision-procedure info) proxy)) (defmethod boxed-copy-fn ((info g-boxed-variant-cstruct-info) native) (if (g-boxed-info-g-type info) (g-boxed-copy (g-boxed-info-g-type info) native) (let ((copy (foreign-alloc (generated-cunion-name (g-boxed-info-name info))))) (memcpy copy native (foreign-type-size (generated-cunion-name (g-boxed-info-name info)))) copy))) (defmethod boxed-free-fn ((info g-boxed-variant-cstruct-info) native) (if (g-boxed-info-g-type info) (g-boxed-free (g-boxed-info-g-type info) native) (foreign-free native))) (defmethod translate-to-foreign (proxy (foreign-type boxed-variant-cstruct-foreign-type)) (if (null proxy) (null-pointer) (let* ((type (g-boxed-foreign-info foreign-type)) (cstruct-description (decide-native-type type proxy))) (with-foreign-object (native-structure (generated-cunion-name (var-structure-name (g-boxed-variant-cstruct-info-root type)))) (copy-slots-to-native proxy native-structure cstruct-description) (values (boxed-copy-fn type native-structure) proxy))))) (defun decide-proxy-type (info native-structure) (funcall (g-boxed-variant-cstruct-info-proxy-type-decision-procedure info) native-structure)) (defmethod free-translated-object (native (foreign-type boxed-variant-cstruct-foreign-type) proxy) (when proxy (let ((type (g-boxed-foreign-info foreign-type))) (multiple-value-bind (actual-struct cstruct-description) (decide-proxy-type type native) (unless (eq (type-of proxy) actual-struct) (restart-case (error "Expected type of boxed variant structure ~A and actual type ~A do not match" (type-of proxy) actual-struct) (skip-parsing-values () (return-from free-translated-object)))) (copy-slots-to-proxy proxy native cstruct-description) (boxed-free-fn type native))))) (defmethod translate-from-foreign (native (foreign-type boxed-variant-cstruct-foreign-type)) (unless (null-pointer-p native) (let ((type (g-boxed-foreign-info foreign-type))) (multiple-value-bind (actual-struct cstruct-description) (decide-proxy-type type native) (let ((proxy (create-structure actual-struct))) (copy-slots-to-proxy proxy native cstruct-description) (when (g-boxed-foreign-return-p foreign-type) (boxed-free-fn type native)) proxy))))) (defmethod cleanup-translated-object-for-callback ((foreign-type boxed-variant-cstruct-foreign-type) proxy native) (when proxy (let ((type (g-boxed-foreign-info foreign-type))) (let ((cstruct-description (decide-native-type type proxy))) (copy-slots-to-native proxy native cstruct-description))))) (defgeneric boxed-parse-g-value (gvalue-ptr info)) (defgeneric boxed-set-g-value (gvalue-ptr info proxy)) (defmethod parse-g-value-for-type (gvalue-ptr (type-numeric (eql (gtype +g-type-boxed+))) parse-kind) (declare (ignore parse-kind)) (if (g-type= (g-value-type gvalue-ptr) (g-strv-get-type)) (convert-from-foreign (g-value-get-boxed gvalue-ptr) '(glib:gstrv :free-from-foreign nil)) (let ((boxed-type (get-g-boxed-foreign-info-for-gtype (g-value-type gvalue-ptr)))) (boxed-parse-g-value gvalue-ptr boxed-type)))) (defmethod set-gvalue-for-type (gvalue-ptr (type-numeric (eql (gtype +g-type-boxed+))) value) (if (g-type= (g-value-type gvalue-ptr) (g-strv-get-type)) (g-value-set-boxed gvalue-ptr (convert-to-foreign value '(glib:gstrv :free-from-foreign nil))) (let ((boxed-type (get-g-boxed-foreign-info-for-gtype (g-value-type gvalue-ptr)))) (boxed-set-g-value gvalue-ptr boxed-type value)))) (defmethod boxed-parse-g-value (gvalue-ptr (info g-boxed-cstruct-wrapper-info)) (translate-from-foreign (g-value-get-boxed gvalue-ptr) (make-foreign-type info :return-p nil))) (defmethod boxed-set-g-value (gvalue-ptr (info g-boxed-cstruct-wrapper-info) proxy) (g-value-take-boxed gvalue-ptr (translate-to-foreign proxy (make-foreign-type info :return-p nil)))) (defmethod boxed-parse-g-value (gvalue-ptr (info g-boxed-variant-cstruct-info)) (translate-from-foreign (g-value-get-boxed gvalue-ptr) (make-foreign-type info :return-p nil))) (defmethod boxed-set-g-value (gvalue-ptr (info g-boxed-variant-cstruct-info) proxy) (g-value-take-boxed gvalue-ptr (translate-to-foreign proxy (make-foreign-type info :return-p nil)))) (defmethod boxed-parse-g-value (gvalue-ptr (info g-boxed-opaque-wrapper-info)) (translate-from-foreign (g-value-get-boxed gvalue-ptr) (make-foreign-type info :return-p t))) (defmethod boxed-set-g-value (gvalue-ptr (info g-boxed-opaque-wrapper-info) proxy) (g-value-set-boxed gvalue-ptr (translate-to-foreign proxy (make-foreign-type info :return-p nil)))) (defun boxed-related-symbols (name) (let ((info (get-g-boxed-foreign-info name))) (etypecase info (g-boxed-cstruct-wrapper-info (append (list name (intern (format nil "MAKE-~A" (symbol-name name))) (intern (format nil "COPY-~A" (symbol-name name)))) (iter (for slot in (cstruct-description-slots (g-boxed-cstruct-wrapper-info-cstruct-description info))) (for slot-name = (cstruct-slot-description-name slot)) (collect (intern (format nil "~A-~A" (symbol-name name) (symbol-name slot-name))))))) (g-boxed-opaque-wrapper-info (list name)) (g-boxed-variant-cstruct-info (append (list name) (iter (for var-struct in (all-structures (g-boxed-variant-cstruct-info-root info))) (for s-name = (var-structure-name var-struct)) (for cstruct-description = (var-structure-resulting-cstruct-description var-struct)) (appending (append (list s-name) (list (intern (format nil "MAKE-~A" (symbol-name s-name))) (intern (format nil "COPY-~A" (symbol-name s-name)))) (iter (for slot in (cstruct-description-slots cstruct-description)) (for slot-name = (cstruct-slot-description-name slot)) (collect (intern (format nil "~A-~A" (symbol-name s-name) (symbol-name slot-name))))))))))))) (defmacro define-boxed-opaque-accessor (boxed-name accessor-name &key type reader writer) (let ((var (gensym)) (n-var (gensym))) `(progn ,@(when reader (list (etypecase reader (symbol `(defun ,accessor-name (,var) (funcall ,reader ,var))) (string `(defcfun (,accessor-name ,reader) ,type (,var (g-boxed-foreign ,boxed-name))))))) ,@(when writer (list (etypecase reader (symbol `(defun (setf ,accessor-name) (,n-var ,var) (funcall ,reader ,n-var ,var))) (string `(defun (setf ,accessor-name) (,n-var ,var) (foreign-funcall ,writer (g-boxed-foreign ,boxed-name) ,var ,type ,n-var :void))))))))) (defun copy-boxed-slots-to-foreign (structure native-ptr &optional (type (and structure (type-of structure)))) (when structure (copy-slots-to-native structure native-ptr (g-boxed-cstruct-wrapper-info-cstruct-description (get-g-boxed-foreign-info type))))) (define-compiler-macro copy-boxed-slots-to-foreign (&whole whole structure native-ptr &optional type) (if (and type (constantp type)) (let* ((type-r (eval type)) (f-i (get-g-boxed-foreign-info type-r))) (unless f-i (warn "Unknown foreign GBoxed type ~S" type-r) (return-from copy-boxed-slots-to-foreign whole)) (unless (typep f-i 'g-boxed-cstruct-wrapper-info) (warn "Foreign GBoxed type ~S is not a C structure wrapper" type-r) (return-from copy-boxed-slots-to-foreign whole)) `(when ,structure (copy-slots-to-native ,structure ,native-ptr (load-time-value (g-boxed-cstruct-wrapper-info-cstruct-description (get-g-boxed-foreign-info ',type-r)))))) whole)) (defmacro with-foreign-boxed-array ((n-var array-var type values-seq) &body body) (let ((values-seq-1 (gensym "VALUES-SEQ-")) (cstruct (generated-cstruct-name type)) (x (gensym "X-")) (i (gensym "I-"))) `(let* ((,values-seq-1 ,values-seq) (,n-var (length ,values-seq-1))) (with-foreign-object (,array-var ',cstruct ,n-var) (let ((,i 0)) (map nil (lambda (,x) (copy-boxed-slots-to-foreign ,x (inc-pointer ,array-var (* ,i (foreign-type-size ',cstruct))) ',type) (incf ,i)) ,values-seq-1)) ,@body))))