X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=tests%2Farith.pure.lisp;h=8d1d12b2fccef389ac0a3ed20d29e37ce05b993b;hb=4c5a011ccc355e3653b9490de6a2b3df5777e55d;hp=1f26fcc8c8210a5048e0af0360e39ba5b69ff68a;hpb=4f102592a1c122f17231563671930456c7c85f5c;p=sbcl.git diff --git a/tests/arith.pure.lisp b/tests/arith.pure.lisp index 1f26fcc..8d1d12b 100644 --- a/tests/arith.pure.lisp +++ b/tests/arith.pure.lisp @@ -69,17 +69,31 @@ ;;; (CEILING x 2^k) was optimized incorrectly (loop for divisor in '(-4 4) - for ceiler = (compile nil `(lambda (x) - (declare (fixnum x)) - (declare (optimize (speed 3))) - (ceiling x ,divisor))) - do (loop for i from -5 to 5 - for exact-q = (/ i divisor) - do (multiple-value-bind (q r) - (funcall ceiler i) - (assert (= (+ (* q divisor) r) i)) - (assert (<= exact-q q)) - (assert (< q (1+ exact-q)))))) + for ceiler = (compile nil `(lambda (x) + (declare (fixnum x)) + (declare (optimize (speed 3))) + (ceiling x ,divisor))) + do (loop for i from -5 to 5 + for exact-q = (/ i divisor) + do (multiple-value-bind (q r) + (funcall ceiler i) + (assert (= (+ (* q divisor) r) i)) + (assert (<= exact-q q)) + (assert (< q (1+ exact-q)))))) + +;;; (TRUNCATE x 2^k) was optimized incorrectly +(loop for divisor in '(-4 4) + for truncater = (compile nil `(lambda (x) + (declare (fixnum x)) + (declare (optimize (speed 3))) + (truncate x ,divisor))) + do (loop for i from -9 to 9 + for exact-q = (/ i divisor) + do (multiple-value-bind (q r) + (funcall truncater i) + (assert (= (+ (* q divisor) r) i)) + (assert (<= (abs q) (abs exact-q))) + (assert (< (abs exact-q) (1+ (abs q))))))) ;;; CEILING had a corner case, spotted by Paul Dietz (assert (= (ceiling most-negative-fixnum (1+ most-positive-fixnum)) -1)) @@ -92,7 +106,10 @@ (let* ((x (random most-positive-fixnum)) (x2 (* x 2)) (x3 (* x 3))) - (let ((fn (handler-bind ((sb-ext:compiler-note #'error)) + (let ((fn (handler-bind ((sb-ext:compiler-note + (lambda (c) + (when (<= x3 most-positive-fixnum) + (error c))))) (compile nil `(lambda (y) (declare (optimize speed) (type (integer 0 3) y)) @@ -117,3 +134,89 @@ (truncate 291351647815394962053040658028983955 10000000000000000000000000) (assert (= quo 29135164781)) (assert (= rem 5394962053040658028983955))) + +;;; x86 LEA bug: +(assert (= (funcall + (compile nil '(lambda (x) (declare (bit x)) (+ x #xf0000000))) + 1) + #xf0000001)) + +;;; LOGBITP on bignums: +(dolist (x '(((1+ most-positive-fixnum) 1 nil) + ((1+ most-positive-fixnum) -1 t) + ((1+ most-positive-fixnum) (1+ most-positive-fixnum) nil) + ((1+ most-positive-fixnum) (1- most-negative-fixnum) t) + (1 (ash most-negative-fixnum 1) nil) + (29 most-negative-fixnum t) + (30 (ash most-negative-fixnum 1) t) + (31 (ash most-negative-fixnum 1) t) + (64 (ash most-negative-fixnum 36) nil) + (65 (ash most-negative-fixnum 36) t))) + (destructuring-bind (index int result) x + (assert (eq (eval `(logbitp ,index ,int)) result)))) + +;;; off-by-1 type inference error for %DPB and %DEPOSIT-FIELD: +(let ((f (compile nil '(lambda (b) + (integer-length (dpb b (byte 4 28) -1005)))))) + (assert (= (funcall f 1230070) 32))) +(let ((f (compile nil '(lambda (b) + (integer-length (deposit-field b (byte 4 28) -1005)))))) + (assert (= (funcall f 1230070) 32))) + +;;; type inference leading to an internal compiler error: +(let ((f (compile nil '(lambda (x) + (declare (type fixnum x)) + (ldb (byte 0 0) x))))) + (assert (= (funcall f 1) 0)) + (assert (= (funcall f most-positive-fixnum) 0)) + (assert (= (funcall f -1) 0))) + +;;; Alpha bignum arithmetic bug: +(assert (= (* 966082078641 419216044685) 404997107848943140073085)) + +;;; Alpha smallnum arithmetic bug: +(assert (= (ash -129876 -1026) -1)) + +;;; Alpha middlenum (yes, really! Affecting numbers between 2^32 and +;;; 2^64 :) arithmetic bug +(let ((fn (compile nil '(LAMBDA (A B C D) + (DECLARE (TYPE (INTEGER -1621 -513) A) + (TYPE (INTEGER -3 34163) B) + (TYPE (INTEGER -9485132993 81272960) C) + (TYPE (INTEGER -255340814 519943) D) + (IGNORABLE A B C D) + (OPTIMIZE (SPEED 3) (SAFETY 1) (DEBUG 1))) + (TRUNCATE C (MIN -100 4149605)))))) + (assert (= (funcall fn -1332 5864 -6963328729 -43789079) 69633287))) + +;;; Here's another fantastic Alpha backend bug: the code to load +;;; immediate 64-bit constants into a register was wrong. +(let ((fn (compile nil '(LAMBDA (A B C D) + (DECLARE (TYPE (INTEGER -3563 2733564) A) + (TYPE (INTEGER -548947 7159) B) + (TYPE (INTEGER -19 0) C) + (TYPE (INTEGER -2546009 0) D) + (IGNORABLE A B C D) + (OPTIMIZE (SPEED 3) (SAFETY 1) (DEBUG 1))) + (CASE A + ((89 125 16) (ASH A (MIN 18 -706))) + (T (DPB -3 (BYTE 30 30) -1))))))) + (assert (= (funcall fn 1227072 -529823 -18 -792831) -2147483649))) + +;;; ASH of a negative bignum by a bignum count would erroneously +;;; return 0 prior to sbcl-0.8.4.4 +(assert (= (ash (1- most-negative-fixnum) (1- most-negative-fixnum)) -1)) + +;;; Whoops. Too much optimization in division operators for 0 +;;; divisor. +(macrolet ((frob (name) + `(let ((fn (compile nil '(lambda (x) + (declare (optimize speed) (fixnum x)) + (,name x 0))))) + (assert (raises-error? (funcall fn 1) division-by-zero))))) + (frob mod) + (frob truncate) + (frob rem) + (frob /) + (frob floor) + (frob ceiling))