(eval-when (:compile-toplevel :load-toplevel :execute)
(load "assertoid.lisp")
+ (load "compiler-test-util.lisp")
+ (load "test-util.lisp")
(use-package "ASSERTOID"))
;;; bug 254: compiler falure
(setq *hannu-trap* t))
(assert (not *hannu-trap*))
-\f
-(sb-ext:quit :unix-status 104)
+;;; bug reported on sbcl-help by Vasile Rotaru
+(let* ((initial-size (expt 2 16))
+ (prime-table (make-array initial-size
+ :element-type 'integer))
+ (first-primes #(5 7 11 13 17 19 23 29 31 37 41 43 47 53 59 61 67 71
+ 73
+ 79 83 89 97 101 103 107 109 113 127 131 137 139 149
+ 151 157 163 167 173 179 181 191 193 197 199 211 223
+ 227 229 233 239 241 251 257 263 269 271 277 281))
+ (count 0)
+ (increment 2))
+
+ (defun largest-prime-so-far ()
+ (aref prime-table (1- count)))
+ (defun add-prime (prime)
+ (setf (aref prime-table count) prime) (incf count))
+ (defun init-table ()
+ (map 'nil #'add-prime first-primes))
+ (defun next-candidate (candidate)
+ (prog1 (+ candidate increment)
+ (ecase increment
+ (2 (setf increment 4))
+ (4 (setf increment 2)))))
+ (defun prime-p (n)
+ (let ((sqrt-n (truncate (sqrt n))))
+ (dotimes (i count)
+ (let ((prime (aref prime-table i)))
+ (when (> prime sqrt-n)
+ (return-from prime-p t))
+ (when (zerop (mod n prime))
+ (return-from prime-p nil))))
+ (error "~&prime-table too small: ~A ~A~%" n
+ (largest-prime-so-far))))
+ (defun generate-primes (required)
+ (do ((candidate (next-candidate (largest-prime-so-far))
+ (next-candidate candidate)))
+ ((> candidate required))
+ (when (prime-p candidate)
+ (add-prime candidate))))
+ ;;
+ (init-table))
+
+;;; Bug in the fopcompiler's handling of LOCALLY pre-0.9.14.8
+
+(defvar *a* 1)
+
+(setf *a*
+ (locally
+ (declare)
+ 2))
+
+;;; Bug in the interaction of BIND-SENTINEL and UNBIND-TO-HERE, as
+;;; used by PROGV.
+
+(defvar *foo-1* nil)
+(defvar *foo-2* nil)
+
+(defun foo ()
+ (declare (optimize (debug 2)))
+ (let ((*foo-1* nil))
+ (progv
+ (list '*foo-2*)
+ (list nil)
+ (write-line "foo-2"))
+ (write-line "foo-1"))
+ (write-line "foo-0"))
+
+(foo)
+
+;;; LOAD-TIME-VALUE smartness
+(defun load-time-value-type-derivation-test-1 ()
+ (ctu:compiler-derived-type (load-time-value (cons 'foo 0))))
+(defun load-time-value-type-derivation-test-2 ()
+ (ctu:compiler-derived-type (load-time-value (+ (or *print-length* 0) 10))))
+(defun load-time-value-auto-read-only-p ()
+ (load-time-value (random most-positive-fixnum)))
+(defun load-time-value-boring ()
+ (load-time-value (cons t t)))
+(test-util:with-test (:name (load-time-value :type-smartness/cload))
+ (assert (eq 'cons (load-time-value-type-derivation-test-1)))
+ (assert (equal '(integer 10) (load-time-value-type-derivation-test-2)))
+ (assert (not (ctu:find-value-cell-values #'load-time-value-auto-read-only-p)))
+ (assert (ctu:find-value-cell-values #'load-time-value-boring)))
+
+(defun regression-1.0.29.54 ()
+ (logior (1+ most-positive-fixnum)
+ (load-time-value (the fixnum (eval 1)) t)))
+
+(test-util:with-test (:name :regression-1.0.29.54)
+ (assert (= (+ most-positive-fixnum 2) (regression-1.0.29.54)))
+ (assert (eq 42
+ (funcall (compile nil
+ `(lambda ()
+ (load-time-value (values 42))))))))
+
+(defun mv-call-regression-1.0.43.57-foo (a c d x y)
+ (values a c d x y))
+(defun mv-call-regression-1.0.43.57-bar (a b c d)
+ (declare (number a b c d))
+ (values a b c d))
+(defun mv-call-regression-1.0.43.57-quux (a sxx sxy syy)
+ (multiple-value-call #'mv-call-regression-1.0.43.57-foo
+ (mv-call-regression-1.0.43.57-bar sxx sxy sxy syy)
+ a))
+(test-util:with-test (:name :mv-call-regression-1.0.43.57)
+ ;; This used to signal a bogus argument-count error.
+ (mv-call-regression-1.0.43.57-quux 1s0 10s0 1s0 10s0))