Fix reporting of memory faults on Windows.
[sbcl.git] / tests / macroexpand.impure.lisp
blobde195ab6dc5975bae7cca63eb0ef7ec10d3e8caf
1 ;;;; This file is for macroexpander tests which have side effects
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
5 ;;;;
6 ;;;; While most of SBCL is derived from the CMU CL system, the test
7 ;;;; files (like this one) were written from scratch after the fork
8 ;;;; from CMU CL.
9 ;;;;
10 ;;;; This software is in the public domain and is provided with
11 ;;;; absolutely no warranty. See the COPYING and CREDITS files for
12 ;;;; more information.
14 ;;; From Matthew Swank on cll 2005-10-06
16 (defmacro defglobal* (name &optional value)
17 (let ((internal (gensym)))
18 `(progn
19 (defparameter ,internal ,value)
20 (define-symbol-macro ,name ,internal))))
22 (defglobal* glob)
24 (assert (= (let ((glob 4)) glob)))
25 (assert (null glob))
26 (assert (equal (let ((glob nil)) (setf glob (cons 'foo glob)) glob) '(foo)))
27 (assert (null glob))
28 (assert (equal (let ((glob nil)) (push 'foo glob) glob) '(foo)))
29 (assert (null glob))
33 ;;; CLHS 3.1.2.1.1 specifies that symbol macro expansion must also
34 ;;; go through *MACROEXPAND-HOOK*. (2007-09-22, -TCR.)
36 (define-symbol-macro .foo. 'foobar)
38 ;;; An evaluated macroexpand-hook leads to infinite recursion.
39 ;;; These tests used to be runnable only if *evaluator-mode* started out
40 ;;; as :compile, but now we support running the test suite with any
41 ;;; *evaluator-mode*, so must explicitly COMPILE the macroexpand hook.
42 ;;; Notice that the lambda expressions being compiled are closures.
43 ;;; This is allowed by sb-interpreter but not sb-eval.
45 (let* ((expanded-p nil)
46 (*macroexpand-hook*
47 (compile nil #'(lambda (fn form env)
48 (when (eq form '.foo.)
49 (setq expanded-p t))
50 (funcall fn form env)))))
51 (multiple-value-bind (expansion flag) (macroexpand '.foo.)
52 (assert (equal expansion '(quote foobar)))
53 (assert flag)
54 (assert expanded-p)))
56 #+(or sb-eval sb-fasteval)
57 (let ((sb-ext:*evaluator-mode* :interpret))
58 (let* ((expanded-p nil)
59 (*macroexpand-hook*
60 (compile nil #'(lambda (fn form env)
61 (when (eq form '.foo.)
62 (setq expanded-p t))
63 (funcall fn form env)))))
64 (eval '.foo.)
65 (assert expanded-p)))
67 (let* ((expanded-p nil)
68 (*macroexpand-hook*
69 (compile nil #'(lambda (fn form env)
70 (when (eq form '/foo/)
71 (setq expanded-p t))
72 (funcall fn form env)))))
73 (compile nil '(lambda ()
74 (symbol-macrolet ((/foo/ 'foobar))
75 (macrolet ((expand (symbol &environment env)
76 (macroexpand symbol env)))
77 (expand /foo/)))))
78 (assert expanded-p))
80 ;; Check that DEFINE-SYMBOL-MACRO on a variable whose global :KIND
81 ;; was :ALIEN gets a sane error message instead of ECASE failure.
82 (sb-alien:define-alien-variable ("posix_argv" foo-argv) (* (* char)))
83 (handler-case (define-symbol-macro foo-argv (silly))
84 (error (e)
85 (assert (string= "Symbol FOO-ARGV is already defined as an alien variable."
86 (write-to-string e :escape nil))))
87 (:no-error () (error "Expected an error")))
89 (with-test (:name :binding*-expander)
90 (assert (equal (macroexpand-1
91 '(sb-int:binding* (((foo x bar zz) (f) :exit-if-null)
92 ((baz y) (g bar)))
93 (declare (integer x foo) (special foo y))
94 (declare (special zz bar l) (real q foo))
95 (thing)))
96 '(MULTIPLE-VALUE-BIND (FOO X BAR ZZ) (F)
97 (DECLARE
98 (INTEGER X FOO) (SPECIAL FOO) (SPECIAL ZZ BAR) (REAL FOO))
99 (WHEN FOO (MULTIPLE-VALUE-BIND (BAZ Y) (G BAR)
100 (DECLARE (SPECIAL Y))
101 (DECLARE (SPECIAL L) (REAL Q)) (THING))))))
103 (assert (equal (macroexpand-1
104 '(sb-int:binding* (((x y) (f))
105 (x (g y x)))
106 (declare (integer x))
107 (foo)))
108 '(MULTIPLE-VALUE-BIND (X Y) (F)
109 (LET* ((X (G Y X)))
110 (DECLARE (INTEGER X))
111 (FOO)))))
113 ;; The conversion of a trailing sequence of individual bindings
114 ;; into one LET* failed to remove declarations that were already
115 ;; injected pertinent to ealier bound variables.
116 (assert (equal-mod-gensyms
117 (macroexpand-1
118 '(sb-int:binding* (((v1 v2 nil) (foo))
119 (a (f v1))
120 (b (g v2)))
121 (declare (special fred) (optimize speed)
122 (optimize (debug 3)))
123 (declare (integer v1 v2))
124 (body)))
125 '(multiple-value-bind (v1 v2 #1=#:g538) (foo)
126 (declare (integer v1 v2))
127 (declare (ignorable #1#))
128 (let* ((a (f v1)) (b (g v2)))
129 (declare (special fred) (optimize speed) (optimize (debug 3)))
130 (body)))))
132 ;; :EXIT-IF-NULL was inserting declarations into the WHEN expression.
133 (assert (equal-mod-gensyms
134 (macroexpand-1
135 '(sb-int:binding* (((a1 a2) (f))
136 (b (g))
137 ((c1 nil c2) (h) :exit-if-null)
138 ((d1 d1) (f))
139 (nil (e) :exit-if-null))
140 (declare (special fff c2) (integer d1))
141 (declare (fixnum a2)
142 (special *x* *y* c1))
143 (declare (cons b) (type integer *y* a1))
144 (a-body-form)
145 (another-body-form)))
146 '(multiple-value-bind (a1 a2) (f)
147 (declare (fixnum a2) (type integer a1))
148 (let* ((b (g)))
149 (declare (cons b))
150 (multiple-value-bind (c1 #2=#:dummy-1 c2) (h)
151 (declare (special c2) (special c1))
152 (declare (ignorable #2#))
153 (when c1
154 (multiple-value-bind (d1 d1) (f)
155 (declare (integer d1))
156 (let* ((#3=#:dummy-2 (e)))
157 (declare (ignorable #3#))
158 (declare (special fff))
159 (declare (special *y* *x*))
160 (declare (type integer *y*))
161 (when #3#
162 (a-body-form) (another-body-form))))))))))
164 ) ; end BINDING*-EXPANDER test
166 (eval-when (:compile-toplevel :load-toplevel :execute)
167 (import '(sb-int:&more sb-int:parse-lambda-list)))
169 (with-test (:name :parse-lambda-list)
170 ;; 3.4.1 - ordinary lambda list
171 (assert-error (parse-lambda-list '(foo &body bar)))
172 (assert-error (parse-lambda-list '(foo &whole bar)))
173 (assert-error (parse-lambda-list '(foo &environment bar)))
174 ;; &more expects exactly two following symbols
175 (assert-error (parse-lambda-list '(foo &more)))
176 (assert-error (parse-lambda-list '(foo &more c)))
177 (assert-error (parse-lambda-list '(foo &more ctxt ct junk)))
178 ;; &more and &rest are mutually exclusive
179 (assert-error (parse-lambda-list '(foo &rest foo &more ctxt n)))
180 (assert-error (parse-lambda-list '(foo &more ctxt n &rest foo)))
182 ;; 3.4.2 - generic function lambda lists
183 (macroexpand-1 '(defgeneric foo (a b &key size &allow-other-keys)))
184 (assert-error (macroexpand-1 '(defgeneric foo (a b &aux x)))
185 sb-pcl::generic-function-lambda-list-error)
186 ;; 3.4.3 - FIXME: add tests
188 ;; 3.4.4 - doesn't use PARSE-LAMBDA-LIST yet
189 ;; 3.4.5 - same
191 ;; 3.4.6 - BOA lambda list is a function lambda list,
192 ;; but the expander silently disregarded the internal &MORE keyword,
193 ;; which has no place in DEFSTRUCT.
194 (assert-error
195 (macroexpand-1 '(defstruct (s (:constructor
196 make-s (a b &more ctxt n)))
197 a b ctxt n)))
199 ;; 3.4.7 - DEFSETF disallows &AUX
200 (assert-error (macroexpand-1
201 '(defsetf foof (a b &optional k &aux) (v1 v2) (forms))))
203 ;; 3.4.8 - DEFTYPE is exactly like DEFMACRO
204 ;; except for the implied default-default of '*
206 ;; 3.4.9 - DEFINE-MODIFY-MACRO allows only &OPTIONAL and &REST
207 (assert-error (macroexpand-1
208 '(define-modify-macro foof (a b &optional k &key) foo)))
209 (assert-error (macroexpand-1
210 '(define-modify-macro foof (a b &optional k &body) foo)))
212 ;; 3.4.10 - DEFINE-METHOD-COMBINATION. Not even sure what this does.
216 (defstruct foo (a 0 :type fixnum))
217 (defstruct bar (a 0 :type fixnum))
218 (declaim (notinline (setf bar-a)))
219 ;; This macro definition is technically violating the dynamic-extent
220 ;; nature of environment objects (as per X3J13), but of course ours don't.
221 (defmacro capture-env (&environment e &rest r)
222 (declare (ignore r))
224 (with-test (:name :macroexpand-of-setf-structure-access)
225 (assert (equal (macroexpand-1 '(setf (foo-a x) 3))
226 `(sb-kernel:%instance-set (the foo x)
227 ,sb-vm:instance-data-start
228 (sb-kernel:the* (fixnum :context (:struct foo . a)) 3))))
230 ;; Lexical definition of (SETF FOO-A) inhibits source-transform.
231 ;; This is not required behavior - SETF of structure slots
232 ;; do not necessarily go through a function named (SETF your-slot),
233 ;; but it's this implementation's behavior, so should be asserted.
234 (flet (((setf foo-a) (new obj) (declare (ignore obj)) new))
235 (assert (equal-mod-gensyms
236 (macroexpand-1 '(setf (foo-a x) 3) (capture-env))
237 '(let* ((#1=#:x x) (new 3)) (funcall #'(setf foo-a) new #1#)))))
239 ;; Same, not required behavior - NOTINLINE inhibits transform.
240 (assert (equal-mod-gensyms
241 (macroexpand-1 '(setf (bar-a x) 3))
242 '(let* ((#2=#:x x) (new 3)) (funcall #'(setf bar-a) new #2#)))))
244 ;;; WITH-CURRENT-SOURCE-FORM tests
246 (defmacro warnings-in-subforms (a b)
247 (with-current-source-form (a)
248 (warn "a warning"))
249 (with-current-source-form (b)
250 (warn "a warning"))
251 `(progn ,a ,b))
253 (with-test (:name (with-current-source-form :smoke))
254 (assert (equal (checked-compile-condition-source-paths
255 '(lambda () (warnings-in-subforms 1 2)))
256 '((2 0) (2 0))))
257 (assert (equal (checked-compile-condition-source-paths
258 '(lambda () (warnings-in-subforms (progn 1) (progn 2))))
259 '((1 2 0) (2 2 0))))
260 (assert (equal (checked-compile-condition-source-paths
261 '(lambda ()
262 (warnings-in-subforms
263 (warnings-in-subforms (progn 1) (progn 2))
264 (progn 3))))
265 '((1 2 0) (2 2 0) (1 1 2 0) (2 1 2 0)))))