-(require :sb-introspect)
+;;;; This software is part of the SBCL system. See the README file for
+;;;; more information.
+;;;;
+;;;; This software is derived from the CMU CL system, which was
+;;;; written at Carnegie Mellon University and released into the
+;;;; public domain. The software is in the public domain and is
+;;;; provided with absolutely no warranty. See the COPYING and CREDITS
+;;;; files for more information.
(defpackage :sb-introspect-test
- (:use "SB-INTROSPECT" "CL"))
+ (:use "SB-INTROSPECT" "CL" "SB-RT"))
+
(in-package :sb-introspect-test)
-(with-compilation-unit (:source-plist (list :test-outer "OUT"))
- (load (compile-file (merge-pathnames "test.lisp" *load-pathname*))))
+(deftest function-lambda-list.1
+ (function-lambda-list 'cl-user::one)
+ (cl-user::a cl-user::b cl-user::c))
-(assert (equal (function-arglist 'cl-user::one)
- '(cl-user::a cl-user::b cl-user::c)))
-(assert (equal (function-arglist 'the)
- '(sb-c::value-type sb-c::form)))
+(deftest function-lambda-list.2
+ (function-lambda-list 'the)
+ (sb-c::value-type sb-c::form))
-(assert (equal (function-arglist #'(sb-pcl::slow-method cl-user::j (t)))
- '(sb-pcl::method-args sb-pcl::next-methods)))
+(deftest function-lambda-list.3
+ (function-lambda-list #'(sb-pcl::slow-method cl-user::j (t)))
+ (sb-pcl::method-args sb-pcl::next-methods))
-(let ((source (find-definition-source #'cl-user::one)))
- (assert (= (definition-source-file-write-date source)
- (file-write-date (merge-pathnames "test.lisp" *load-pathname*))))
- (assert (equal (getf (definition-source-plist source) :test-outer)
- "OUT")))
+(deftest definition-source-plist.1
+ (let* ((source (find-definition-source #'cl-user::one))
+ (plist (definition-source-plist source)))
+ (values (= (definition-source-file-write-date source)
+ (file-write-date "test.lisp"))
+ (or (equal (getf plist :test-outer)
+ "OUT")
+ plist)))
+ t t)
-(let ((plist (definition-source-plist
- (find-definition-source #'cl-user::four))))
- (assert (equal (getf plist :test-outer) "OUT"))
- (assert (equal (getf plist :test-inner) "IN")))
+(deftest definition-source-plist.2
+ (let ((plist (definition-source-plist
+ (find-definition-source #'cl-user::four))))
+ (values (or (equal (getf plist :test-outer) "OUT")
+ plist)
+ (or (equal (getf plist :test-inner) "IN")
+ plist)))
+ t t)
(defun matchp (object form-number)
(let ((ds (sb-introspect:find-definition-source object)))
(let ((ds (sb-introspect:find-definition-sources-by-name object type)))
(= (length ds) form-numbers)))
-(assert (matchp-name :function 'cl-user::one 2))
-(assert (matchp #'cl-user::one 2))
-(assert (matchp-name :generic-function 'cl-user::two 3))
-(assert (matchp (car (sb-pcl:generic-function-methods #'cl-user::two)) 4))
-
-(assert (matchp-name :variable 'cl-user::*a* 8))
-(assert (matchp-name :variable 'cl-user::*b* 9))
-(assert (matchp-name :class 'cl-user::a 10))
-(assert (matchp-name :condition 'cl-user::b 11))
-(assert (matchp-name :structure 'cl-user::c 12))
-(assert (matchp-name :function 'cl-user::make-c 12))
-(assert (matchp-name :function 'cl-user::c-e 12))
-(assert (matchp-name :structure 'cl-user::d 13))
-(assert (matchp-name :function 'cl-user::make-d 13))
-(assert (matchp-name :function 'cl-user::d-e 13))
-(assert (matchp-name :package 'cl-user::e 14))
-(assert (matchp-name :symbol-macro 'cl-user::f 15))
-(assert (matchp-name :type 'cl-user::g 16))
-(assert (matchp-name :constant 'cl-user::+h+ 17))
-(assert (matchp-length :method 'cl-user::j 2))
-(assert (matchp-name :macro 'cl-user::l 20))
-(assert (matchp-name :compiler-macro 'cl-user::m 21))
-(assert (matchp-name :setf-expander 'cl-user::n 22))
-(assert (matchp-name :function '(setf cl-user::o) 23))
-(assert (matchp-name :method '(setf cl-user::p) 24))
-(assert (matchp-name :macro 'cl-user::q 25))
-(assert (matchp-name :method-combination 'cl-user::r 26))
-(assert (matchp-name :setf-expander 'cl-user::s 27))
-
-(sb-profile:profile cl-user::one)
-(assert (matchp-name :function 'cl-user::one 2))
-(sb-profile:unprofile cl-user::one)
-
-
-;;;; Check correctness of FUNCTION-ARGLIST.
-
-(assert (equal (function-arglist 'cl-user::one)
- '(cl-user::a cl-user::b cl-user::c)))
-(assert (equal (function-arglist 'the)
- '(sb-c::value-type sb-c::form)))
+(deftest find-source-stuff.1
+ (matchp-name :function 'cl-user::one 2)
+ t)
+
+(deftest find-source-stuff.2
+ (matchp #'cl-user::one 2)
+ t)
+
+(deftest find-source-stuff.3
+ (matchp-name :generic-function 'cl-user::two 3)
+ t)
+
+(deftest find-source-stuff.4
+ (matchp (car (sb-pcl:generic-function-methods #'cl-user::two)) 4)
+ t)
+
+(deftest find-source-stuff.5
+ (matchp-name :variable 'cl-user::*a* 8)
+ t)
+
+(deftest find-source-stuff.6
+ (matchp-name :variable 'cl-user::*b* 9)
+ t)
+
+(deftest find-source-stuff.7
+ (matchp-name :class 'cl-user::a 10)
+ t)
+
+(deftest find-source-stuff.8
+ (matchp-name :condition 'cl-user::b 11)
+ t)
+
+(deftest find-source-stuff.9
+ (matchp-name :structure 'cl-user::c 12)
+ t)
+
+(deftest find-source-stuff.10
+ (matchp-name :function 'cl-user::make-c 12)
+ t)
+
+(deftest find-source-stuff.11
+ (matchp-name :function 'cl-user::c-e 12)
+ t)
+
+(deftest find-source-stuff.12
+ (matchp-name :structure 'cl-user::d 13)
+ t)
+
+(deftest find-source-stuff.13
+ (matchp-name :function 'cl-user::make-d 13)
+ t)
+
+(deftest find-source-stuff.14
+ (matchp-name :function 'cl-user::d-e 13)
+ t)
+
+(deftest find-source-stuff.15
+ (matchp-name :package 'cl-user::e 14)
+ t)
+
+(deftest find-source-stuff.16
+ (matchp-name :symbol-macro 'cl-user::f 15)
+ t)
+
+(deftest find-source-stuff.17
+ (matchp-name :type 'cl-user::g 16)
+ t)
+
+(deftest find-source-stuff.18
+ (matchp-name :constant 'cl-user::+h+ 17)
+ t)
+
+(deftest find-source-stuff.19
+ (matchp-length :method 'cl-user::j 2)
+ t)
+
+(deftest find-source-stuff.20
+ (matchp-name :macro 'cl-user::l 20)
+ t)
+
+(deftest find-source-stuff.21
+ (matchp-name :compiler-macro 'cl-user::m 21)
+ t)
+
+(deftest find-source-stuff.22
+ (matchp-name :setf-expander 'cl-user::n 22)
+ t)
+
+(deftest find-source-stuff.23
+ (matchp-name :function '(setf cl-user::o) 23)
+ t)
+
+
+(deftest find-source-stuff.24
+ (matchp-name :method '(setf cl-user::p) 24)
+ t)
+
+
+(deftest find-source-stuff.25
+ (matchp-name :macro 'cl-user::q 25)
+ t)
+
+
+(deftest find-source-stuff.26
+ (matchp-name :method-combination 'cl-user::r 26)
+ t)
+
+
+(deftest find-source-stuff.27
+ (matchp-name :setf-expander 'cl-user::s 27)
+ t)
+
+(deftest find-source-stuff.28
+ (let ((fin (make-instance 'sb-mop:funcallable-standard-object)))
+ (sb-mop:set-funcallable-instance-function fin #'cl-user::one)
+ (matchp fin 2))
+ t)
+
+(deftest find-source-stuff.29
+ (unwind-protect
+ (progn
+ (sb-profile:profile cl-user::one)
+ (matchp-name :function 'cl-user::one 2))
+ (sb-profile:unprofile cl-user::one))
+ t)
+
+(deftest find-source-stuff.30
+ ;; Test finding a type that isn't one
+ (not (find-definition-sources-by-name 'fboundp :type))
+ t)
;;; Check wrt. interplay of generic functions and their methods.
;;
;; (GF.A GF.B &REST GF.REST &KEY GF.K-X M1.K-Z M1.K-Y M2.K-Q)
;;
-(multiple-value-bind (required optional restp rest keyp keys allowp
- auxp aux morep more-context more-count)
- (sb-int:parse-lambda-list (function-arglist #'xuuq))
- (assert (equal required '(gf.a gf.b)))
- (assert (null optional))
- (assert (and restp (eql rest 'gf.rest)))
- (assert (and keyp
- (member 'gf.k-X keys)
- (member 'm1.k-Y keys)
- (member 'm1.k-Z keys)
- (member 'm2.k-Q keys)))
- (assert (not allowp))
- (assert (and (not auxp) (null aux)))
- (assert (and (not morep) (null more-context) (not more-count))))
+(deftest gf-interplay.1
+ (multiple-value-bind (required optional restp rest keyp keys allowp
+ auxp aux morep more-context more-count)
+ (sb-int:parse-lambda-list (function-lambda-list #'xuuq))
+ (and (equal required '(gf.a gf.b))
+ (null optional)
+ (and restp (eql rest 'gf.rest))
+ (and keyp
+ (member 'gf.k-X keys)
+ (member 'm1.k-Y keys)
+ (member 'm1.k-Z keys)
+ (member 'm2.k-Q keys))
+ (not allowp)
+ (and (not auxp) (null aux))
+ (and (not morep) (null more-context) (not more-count))))
+ t)
;;; Check what happens when there's no explicit DEFGENERIC.
(defmethod kroolz (r1 r2 &optional opt &aux aux)
(declare (ignore r1 r2 opt aux))
'kroolz)
-(assert (equal (function-arglist #'kroolz) '(r1 r2 &optional opt)))
-;;;; Test finding a type that isn't one
-(assert (not (find-definition-sources-by-name 'fboundp :type)))
+(deftest gf-interplay.2
+ (equal (function-lambda-list #'kroolz) '(r1 r2 &optional opt))
+ t)
;;;; Check correctness of DEFTYPE-LAMBDA-LIST.
(deftype foobar-type
(declare (ignore w e r1 r2 o rest k1 k2 k3))
nil)
-(assert (multiple-value-bind (arglist found?) (deftype-lambda-list 'foobar-type)
- (and found?
- (equal arglist '(&whole w &environment e
- r1 r2 &optional o &rest rest &key k1 k2 k3)))))
+(deftest deftype-lambda-list.1
+ (deftype-lambda-list 'foobar-type)
+ (&whole w &environment e r1 r2 &optional o &rest rest &key k1 k2 k3)
+ t)
+
+(deftest deftype-lambda-list.2
+ (deftype-lambda-list (gensym))
+ nil
+ nil)
+
+;; ARRAY is a primitive type with associated translator function.
+(deftest deftype-lambda-list.3
+ (deftype-lambda-list 'array)
+ (&optional (sb-kernel::element-type '*) (sb-kernel::dimensions '*))
+ t)
+
+;; VECTOR is a primitive type that is defined by means of DEFTYPE.
+(deftest deftype-lambda-list.4
+ (deftype-lambda-list 'vector)
+ (&optional sb-kernel::element-type sb-kernel::size)
+ t)
+
+;;; Test allocation-information
+
+(defun tai (x kind info &key ignore)
+ (multiple-value-bind (kind2 info2) (sb-introspect:allocation-information x)
+ (unless (eq kind kind2)
+ (error "wanted ~S, got ~S" kind kind2))
+ (when (not (null ignore))
+ (setf info2 (copy-list info2))
+ (dolist (key ignore)
+ (remf info2 key))
+ (setf info (copy-list info))
+ (dolist (key ignore)
+ (remf info key)))
+ (equal info info2)))
+
+(deftest allocation-infromation.1
+ (tai nil :heap '(:space :static))
+ t)
+
+(deftest allocation-information.2
+ (tai t :heap '(:space :static))
+ t)
+
+(deftest allocation-information.3
+ (tai 42 :immediate nil)
+ t)
+
+(deftest allocation-information.4
+ #+gencgc
+ (tai #'cons :heap
+ ;; FIXME: This is the canonical GENCGC result. On PPC we sometimes get
+ ;; :LARGE T, which doesn't seem right -- but ignore that for now.
+ '(:space :dynamic :generation 6 :write-protected t :boxed t :pinned nil :large nil)
+ :ignore #+ppc '(:large) #-ppc nil)
+ #-gencgc
+ (tai :cons :heap
+ ;; FIXME: Figure out what's the right cheney-result. SPARC at least
+ ;; has exhibited both :READ-ONLY and :DYNAMIC, which seems wrong.
+ '()
+ :ignore '(:space))
+ t)
-(assert (equal (multiple-value-list (deftype-lambda-list (gensym)))
- '(nil nil)))
+#+sb-thread
+(deftest allocation-information.thread.1
+ (let ((x (list 1 2 3)))
+ (declare (dynamic-extent x))
+ (tai x :stack sb-thread:*current-thread*))
+ t)
+#+sb-thread
+(progn
+ (defun thread-tai ()
+ (let ((x (list 1 2 3)))
+ (declare (dynamic-extent x))
+ (let ((child (sb-thread:make-thread
+ (lambda ()
+ (sb-introspect:allocation-information x)))))
+ (equal (list :stack sb-thread:*current-thread*)
+ (multiple-value-list (sb-thread:join-thread child))))))
-;;;; Test the xref facility
+ (deftest allocation-information.thread.2
+ (thread-tai)
+ t)
-(load (merge-pathnames "xref-test.lisp" *load-pathname*))
+ (defun thread-tai2 ()
+ (let* ((sem (sb-thread:make-semaphore))
+ (obj nil)
+ (child (sb-thread:make-thread
+ (lambda ()
+ (let ((x (list 1 2 3)))
+ (declare (dynamic-extent x))
+ (setf obj x)
+ (sb-thread:wait-on-semaphore sem)))
+ :name "child")))
+ (loop until obj)
+ (unwind-protect
+ (equal (list :stack child)
+ (multiple-value-list
+ (sb-introspect:allocation-information obj)))
+ (sb-thread:signal-semaphore sem)
+ (sb-thread:join-thread child))))
-;;;; Unix success convention for exit codes
-(sb-ext:quit :unix-status 0)
+ (deftest allocation-information.thread.3
+ (thread-tai2)
+ t))