(let ((x 1)) (defun disassemble-closure (y) (if y (setq x y) x)))
(disassemble 'disassemble-closure)
+
+#+sb-eval
+(progn
+ ;; Nor should it fail on interpreted functions
+ (let ((sb-ext:*evaluator-mode* :interpret))
+ (eval `(defun disassemble-eval (x) x))
+ (disassemble 'disassemble-eval))
+
+ ;; disassemble-eval should still be an interpreted function.
+ ;; clhs disassemble: "(If that function is an interpreted function,
+ ;; it is first compiled but the result of this implicit compilation
+ ;; is not installed.)"
+ (assert (sb-eval:interpreted-function-p #'disassemble-eval)))
+
+;; nor should it fail on generic functions or other funcallable instances
+(defgeneric disassemble-generic (x))
+(disassemble 'disassemble-generic)
+(let ((fin (sb-mop:make-instance 'sb-mop:funcallable-standard-object)))
+ (disassemble fin))
+
+;;; while we're at it, much the same applies to
+;;; FUNCTION-LAMBDA-EXPRESSION:
+(defun fle-fun (x) x)
+(function-lambda-expression #'fle-fun)
+
+(let ((x 1)) (defun fle-closure (y) (if y (setq x y) x)))
+(function-lambda-expression #'fle-closure)
+
+#+sb-eval
+(progn
+ ;; Nor should it fail on interpreted functions
+ (let ((sb-ext:*evaluator-mode* :interpret))
+ (eval `(defun fle-eval (x) x))
+ (function-lambda-expression #'fle-eval))
+
+ ;; fle-eval should still be an interpreted function.
+ (assert (sb-eval:interpreted-function-p #'fle-eval)))
+
+;; nor should it fail on generic functions or other funcallable instances
+(defgeneric fle-generic (x))
+(function-lambda-expression #'fle-generic)
+(let ((fin (sb-mop:make-instance 'sb-mop:funcallable-standard-object)))
+ (function-lambda-expression fin))
\f
;;; support for DESCRIBE tests
(defstruct to-be-described a b)
(error "misbehavior in DESCRIBE of ~S" i))))
\f
+;;; Tests of documentation on types and classes
+(defclass foo ()
+ ()
+ (:documentation "FOO"))
+(defstruct bar "BAR")
+(define-condition baz ()
+ ()
+ (:documentation "BAZ"))
+(deftype quux ()
+ "QUUX"
+ 't)
+(defstruct (frob (:type vector)) "FROB")
+(macrolet
+ ((do-class (name expected &optional structurep)
+ `(progn
+ (assert (string= (documentation ',name 'type) ,expected))
+ (assert (string= (documentation (find-class ',name) 'type) ,expected))
+ (assert (string= (documentation (find-class ',name) 't) ,expected))
+ ,@(when structurep
+ `((assert (string= (documentation ',name 'structure) ,expected))))
+ (let ((new1 (symbol-name (gensym "NEW1")))
+ (new2 (symbol-name (gensym "NEW2")))
+ (new3 (symbol-name (gensym "NEW3")))
+ (new4 (symbol-name (gensym "NEW4"))))
+ (declare (ignorable new4))
+ (setf (documentation ',name 'type) new1)
+ (assert (string= (documentation (find-class ',name) 'type) new1))
+ (setf (documentation (find-class ',name) 'type) new2)
+ (assert (string= (documentation (find-class ',name) 't) new2))
+ (setf (documentation (find-class ',name) 't) new3)
+ (assert (string= (documentation ',name 'type) new3))
+ ,@(when structurep
+ `((assert (string= (documentation ',name 'structure) new3))
+ (setf (documentation ',name 'structure) new4)
+ (assert (string= (documentation ',name 'structure) new4))))))))
+ (do-class foo "FOO")
+ (do-class bar "BAR" t)
+ (do-class baz "BAZ"))
+
+(assert (string= (documentation 'quux 'type) "QUUX"))
+(setf (documentation 'quux 'type) "NEW4")
+(assert (string= (documentation 'quux 'type) "NEW4"))
+
+(assert (string= (documentation 'frob 'structure) "FROB"))
+(setf (documentation 'frob 'structure) "NEW5")
+(assert (string= (documentation 'frob 'structure) "NEW5"))
+\f
;;;; success