(assert (= 0.0d0 (scale-float 1.0d0 (1- most-negative-fixnum))))
(with-test (:name (:scale-float-overflow :bug-372)
- :fails-on '(or :ppc :darwin)) ;; bug 372
+ :fails-on '(and :darwin :ppc)) ;; bug 372
(progn
(assert (raises-error? (scale-float 1.0 most-positive-fixnum)
floating-point-overflow))
(funcall (compile nil '(lambda () (tan (tan (round 0))))))
(with-test (:name (:addition-overflow :bug-372)
- :fails-on '(or :ppc :darwin (and :x86 :netbsd)))
+ :fails-on '(or (and :ppc :openbsd)
+ (and :ppc :darwin)
+ (and :x86 :netbsd)))
+ (assert (typep (nth-value
+ 1
+ (ignore-errors
+ (sb-sys:without-interrupts
+ (sb-int:set-floating-point-modes :current-exceptions nil
+ :accrued-exceptions nil)
+ (loop repeat 2 summing most-positive-double-float)
+ (sleep 2))))
+ 'floating-point-overflow)))
+
+;; This is the same test as above. Even if the above copy passes,
+;; this copy will fail if SIGFPE handling ends up clearing the FPU
+;; control word, which can happen if the kernel clears the FPU control
+;; (a reasonable thing for it to do) and the runtime fails to
+;; compensate for this (see RESTORE_FP_CONTROL_WORD in interrupt.c).
+;; Note that this only works when running float.pure.lisp alone, as
+;; the preceeding "pure" test files aren't as free of side effects as
+;; we might like.
+(with-test (:name (:addition-overflow :bug-372 :take-2)
+ :fails-on '(or (and :ppc :openbsd)
+ (and :ppc :darwin)
+ (and :x86 :netbsd)))
(assert (typep (nth-value
1
(ignore-errors
(assert (eql 0.0d0 (funcall f 123.0d0 0.0d0)))
(assert (eql 0.0d0 (funcall f 123.0 0.0d0)))))
-;; 1.0.29.44 introduces a ton of changes for complex floats
-;; on x86-64. Huge test of doom to help catch weird corner
-;; cases.
-(with-test (:name :complex-floats)
- (labels ((equal-enough (x y)
- (cond ((eql x y))
- ((or (complexp x)
- (complexp y))
- (or (eql (coerce x '(complex double-float))
- (coerce y '(complex double-float)))
- (and (equal-enough (realpart x) (realpart y))
- (equal-enough (imagpart x) (imagpart y)))))
- ((numberp x)
- (or (eql (coerce x 'double-float) (coerce y 'double-float))
- (< (abs (- x y)) 1d-5)))))
- (reflections (x)
- (values x
- (conjugate x)
- (complex (- (realpart x)) (imagpart x))
- (- x)))
- (compute (x y r)
- (list (+ x y) (+ r x) (+ x r)
- (- x y) (- r x) (- x r)
- (* x y) (* x r) (* r x)
- (unless (zerop y)
- (/ x y))
- (unless (zerop r)
- (/ x r))
- (unless (zerop x)
- (/ r x))
- (conjugate x) (conjugate r)
- (- x)
- (complex r) (complex r r) (complex 0 r)
- (= x y) (= r x) (= y r) (= x (complex 0 r))
- (eql x y) (eql x (complex r)) (eql y (complex r))
- (eql x (complex r r)) (eql y (complex 0 r))))
- (compute-all (x y r)
- (multiple-value-bind (x1 x2 x3 x4) (reflections x)
- (multiple-value-bind (y1 y2 y3 y4) (reflections y)
- #.(let ((form '(list)))
- (dolist (x '(x1 x2 x3 x4) (reverse form))
- (dolist (y '(y1 y2 y3 y4))
- (push `(list ,x ,y r
- (append (compute ,x ,y r)
- (compute ,x ,y (- r))))
- form))))))))
- (declare (inline reflections compute compute-all))
- (let* ((reals '(0 1 2))
- (complexes '#.(let ((reals '(0 1 2))
- (cpx '()))
- (dolist (x reals (nreverse cpx))
- (dolist (y reals)
- (push (complex x y) cpx)))))
- (val ()))
- (declare (notinline every))
- (dolist (r reals (nreverse val))
- (dolist (x complexes)
- (dolist (y complexes)
- (let ((value (compute-all x y r))
- (single (compute-all (coerce x '(complex single-float))
- (coerce y '(complex single-float))
- (coerce r 'single-float)))
- (double (compute-all (coerce x '(complex double-float))
- (coerce y '(complex double-float))
- (coerce r 'double-float))))
- (assert (every (lambda (pos ref single double)
- (every (lambda (ref single double)
- (or (and (equal-enough ref single)
- (equal-enough ref double))
- (and (not (numberp single)) ;; -ve 0s
- (equal-enough single double))))
- (fourth ref) (fourth single) (fourth double)))
- '((0 0) (0 1) (0 2) (0 3)
- (1 0) (1 1) (1 2) (1 3)
- (2 0) (2 1) (2 2) (2 3)
- (3 0) (3 1) (3 2) (3 3))
- value single double)))))))))
+;; Bug reported by Eric Marsden on July 15 2009. The compiler
+;; used not to constant fold calls with arguments of type
+;; (EQL foo).
+(with-test (:name :eql-type-constant-fold)
+ (assert (equal '(FUNCTION (T) (VALUES (MEMBER T) &OPTIONAL))
+ (sb-kernel:%simple-fun-type
+ (compile nil `(lambda (x)
+ (eql #c(1.0 2.0)
+ (the (eql #c(1.0 2.0))
+ x))))))))
+
+;; Leakage from the host could result in wrong values for truncation.
+(with-test (:name :truncate)
+ (assert (plusp (sb-kernel:%unary-truncate/single-float (expt 2f0 33))))
+ (assert (plusp (sb-kernel:%unary-truncate/double-float (expt 2d0 33))))
+ ;; That'd be one strange host, but just in case
+ (assert (plusp (sb-kernel:%unary-truncate/single-float (expt 2f0 65))))
+ (assert (plusp (sb-kernel:%unary-truncate/double-float (expt 2d0 65)))))
+
+;; On x86-64, we sometimes forgot to clear the higher order bits of the
+;; destination register before using it with an instruction that doesn't
+;; clear the (unused) high order bits. Suspect instructions are operations
+;; with only one operand: for everything else, the destination has already
+;; been loaded with a value, making it safe (by induction).
+;;
+;; The tests are extremely brittle and could be broken by any number of
+;; back- or front-end optimisations. We should just keep the issue above
+;; in mind at all times when working with SSE or similar instruction sets.
+;;
+;; Run only on x86/x86-64m as no other platforms have SB-VM::TOUCH-OBJECT.
+(macrolet ((with-pinned-floats ((count type &rest names) &body body)
+ "Force COUNT float values to be kept live (and hopefully in registers),
+ fill a temporary register with noise, and execute BODY."
+ ;; KLUDGE: SB-VM is locked, and non-x86oids don't have
+ ;; SB-VM::TOUCH-OBJECT. Don't even READ this body on
+ ;; other platforms.
+ #-(or x86 x86-64)
+ (declare (ignore count type names body))
+ #+(or x86 x86-64)
+ (let ((dummy (loop repeat count
+ collect (or (pop names)
+ (gensym "TEMP")))))
+ `(let ,(loop for i downfrom -1
+ for var in dummy
+ for j = (coerce i type)
+ collect
+ `(,var ,(complex j j))) ; we don't actually need that, but
+ (declare (type (complex ,type) ,@dummy)) ; future-proofing can't hurt
+ ,@(loop for var in dummy
+ for i upfrom 0
+ collect `(setf ,var ,(complex i (coerce i type))))
+ (multiple-value-prog1
+ (progn
+ (let ((x ,(complex 1d0 1d0)))
+ (declare (type (complex double-float) x))
+ (setf x ,(complex most-positive-fixnum (float most-positive-fixnum 1d0)))
+ (sb-vm::touch-object x))
+ (locally ,@body))
+ ,@(loop for var in dummy
+ collect `(sb-vm::touch-object ,var)))))))
+ (with-test (:name :clear-sqrtsd :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-sqrtsd (float)
+ (declare (optimize speed (safety 1))
+ (type (double-float (0d0)) float))
+ (with-pinned-floats (14 double-float x0)
+ (let ((x (sqrt float)))
+ (values (+ x x0) float)))))
+ (declare (notinline test-sqrtsd))
+ (assert (zerop (imagpart (test-sqrtsd 4d0))))))
+
+ (with-test (:name :clear-sqrtsd-single :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-sqrtsd-float (float)
+ (declare (optimize speed (safety 1))
+ (type (single-float (0f0)) float))
+ (with-pinned-floats (14 single-float x0)
+ (let ((x (sqrt float)))
+ (values (+ x x0) float)))))
+ (declare (notinline test-sqrtsd-float))
+ (assert (zerop (imagpart (test-sqrtsd-float 4f0))))))
+
+ (with-test (:name :clear-cvtss2sd :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-cvtss2sd (float)
+ (declare (optimize speed (safety 1))
+ (type single-float float))
+ (with-pinned-floats (14 double-float x0)
+ (let ((x (float float 0d0)))
+ (values (+ x x0) (+ 1e0 float))))))
+ (declare (notinline test-cvtss2sd))
+ (assert (zerop (imagpart (test-cvtss2sd 1f0))))))
+
+ (with-test (:name :clear-cvtsd2ss :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-cvtsd2ss (float)
+ (declare (optimize speed (safety 1))
+ (type double-float float))
+ (with-pinned-floats (14 single-float x0)
+ (let ((x (float float 1e0)))
+ (values (+ x x0) (+ 1d0 float))))))
+ (declare (notinline test-cvtsd2ss))
+ (assert (zerop (imagpart (test-cvtsd2ss 4d0))))))
+
+ (with-test (:name :clear-cvtsi2sd :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-cvtsi2sd (int)
+ (declare (optimize speed (safety 0))
+ (type (unsigned-byte 10) int))
+ (with-pinned-floats (15 double-float x0)
+ (+ (float int 0d0) x0))))
+ (declare (notinline test-cvtsi2sd))
+ (assert (zerop (imagpart (test-cvtsi2sd 4))))))
+
+ (with-test (:name :clear-cvtsi2ss :skipped-on '(not (or :x86 :x86-64)))
+ (flet ((test-cvtsi2ss (int)
+ (declare (optimize speed (safety 0))
+ (type (unsigned-byte 10) int))
+ (with-pinned-floats (15 single-float x0)
+ (+ (float int 0e0) x0))))
+ (declare (notinline test-cvtsi2ss))
+ (assert (zerop (imagpart (test-cvtsi2ss 4)))))))
+
+(with-test (:name :round-to-bignum)
+ (assert (= (round 1073741822.3d0) 1073741822))
+ (assert (= (round 1073741822.5d0) 1073741822))
+ (assert (= (round 1073741822.7d0) 1073741823))
+ (assert (= (round 1073741823.3d0) 1073741823))
+ (assert (= (round 1073741823.5d0) 1073741824))
+ (assert (= (round 1073741823.7d0) 1073741824)))
+
+(with-test (:name :round-single-to-bignum)
+ (assert (= (round 1e14) 100000000376832))
+ (assert (= (round 1e19) 9999999980506447872)))
+
+(with-test (:name :scaled-%hypot)
+ (assert (<= (abs (complex most-positive-double-float 1d0))
+ (1+ most-positive-double-float))))