arm64: remove EVAL-WHENs and multiple definition warnings

[sbcl.git] / tests / float.pure.lisp

;;;; floating-point-related tests with no side effects

;;;; This software is part of the SBCL system. See the README file for
;;;; more information.
;;;;
;;;; While most of SBCL is derived from the CMU CL system, the test
;;;; files (like this one) were written from scratch after the fork
;;;; from CMU CL.
;;;;
;;;; This software is in the public domain and is provided with
;;;; absolutely no warranty. See the COPYING and CREDITS files for
;;;; more information.

(cl:in-package :cl-user)

(with-test (:name (:infinities :comparison))
  (dolist (ifnis (list (cons single-float-positive-infinity
                             single-float-negative-infinity)
                       (cons double-float-positive-infinity
                             double-float-negative-infinity)))
    (destructuring-bind (+ifni . -ifni) ifnis
      (assert (= (* +ifni 1) +ifni))
      (assert (= (* +ifni -0.1) -ifni))
      (assert (= (+ +ifni -0.1) +ifni))
      (assert (= (- +ifni -0.1) +ifni))
      (assert (= (sqrt +ifni) +ifni))
      (assert (= (* -ifni -14) +ifni))
      (assert (= (/ -ifni 0.1) -ifni))
      (assert (= (/ -ifni 100/3) -ifni))
      (assert (not (= +ifni -ifni)))
      (assert (= -ifni -ifni))
      (assert (not (= +ifni 100/3)))
      (assert (not (= -ifni -1.0 -ifni)))
      (assert (not (= -ifni -17/02 -ifni)))
      (assert (< -ifni +ifni))
      (assert (not (< +ifni 100)))
      (assert (not (< +ifni 100.0)))
      (assert (not (< +ifni -ifni)))
      (assert (< 100 +ifni))
      (assert (< 100.0 +ifni))
      (assert (>= 100 -ifni))
      (assert (not (<= 6/7 (* 3 -ifni))))
      (assert (not (> +ifni +ifni))))))

;;; ANSI: FLOAT-RADIX should signal an error if its argument is not a
;;; float.
;;;
;;; (Peter Van Eynde's ansi-test suite caught this, and Eric Marsden
;;; reported a fix for CMU CL, which was ported to sbcl-0.6.12.35.)
(with-test (:name (float-radix simple-type-error))
  (multiple-value-bind  (fun failure-p warnings)
      (checked-compile '(lambda () (float-radix "notfloat")) :allow-warnings t)
    (assert failure-p)
    (assert (= 1 (length warnings)))
    (assert-error (funcall fun) type-error))
  (assert-error (funcall (fdefinition 'float-radix) "notfloat") type-error))

;;; Before 0.8.2.14 the cross compiler failed to work with
;;; denormalized numbers
(with-test (:name (:denormalized float))
  (when (subtypep 'single-float 'short-float)
    (assert (eql least-positive-single-float least-positive-short-float))))

;;; bug found by Paul Dietz: FFLOOR and similar did not work for integers
(with-test (:name (ffloor integer))
  (let ((tests '(((ffloor -8 3) (-3.0 1))
                 ((fround -8 3) (-3.0 1))
                 ((ftruncate -8 3) (-2.0 -2))
                 ((fceiling -8 3) (-2.0 -2)))))
    (loop for (exp res) in tests
       for real-res = (multiple-value-list (eval exp))
       do (assert (equal real-res res)))))

;;; bug 45b reported by PVE
(with-test (:name (:least-*-*-float :bug-45b))
  (dolist (type '(short single double long))
    (dolist (sign '(positive negative))
      (let* ((name (find-symbol (format nil "LEAST-~A-~A-FLOAT"
                                        sign type)
                                :cl))
             (value (symbol-value name)))
        (assert (zerop (/ value 2)))))))

;;; bug found by Paul Dietz: bad rounding on small floats
(with-test (:name (fround least-positive-short-float))
  (assert (= (fround least-positive-short-float least-positive-short-float) 1.0)))

;;; bug found by Peter Seibel: scale-float was only accepting float
;;; exponents, when it should accept all integers.  (also bug #269)
(with-test (:name (scale-float :bug-269))
  (assert (= (multiple-value-bind (significand expt sign)
                 (integer-decode-float least-positive-double-float)
               (* (scale-float (float significand 0.0d0) expt) sign))
             least-positive-double-float))
  (assert (= (multiple-value-bind (significand expt sign)
                 (decode-float least-positive-double-float)
               (* (scale-float significand expt) sign))
             least-positive-double-float))
  (assert (= 0.0 (scale-float 1.0 most-negative-fixnum)))
  (assert (= 0.0d0 (scale-float 1.0d0 (1- most-negative-fixnum)))))

(with-test (:name (:scale-float-overflow :bug-372)
            :fails-on '(or :arm64 (and :darwin :ppc)))
  (flet ((test (form)
           (assert-error (funcall (checked-compile `(lambda () ,form)
                                                   :allow-style-warnings t))
                         floating-point-overflow)))
    (test '(scale-float 1.0 most-positive-fixnum))
    (test '(scale-float 1.0d0 (1+ most-positive-fixnum)))))

;;; bug found by jsnell when nfroyd tried to implement better LOGAND
;;; type derivation.
(assert (= (integer-decode-float (coerce -1756510900000000000
                                         'single-float))
           12780299))

;;; MISC.564: no out-of-line %ATAN2 for constant folding
(with-test (:name (:%atan2 :constant-folding))
  (assert (typep
           (funcall
            (checked-compile
             '(lambda (p1)
               (declare (optimize (speed 3) (safety 2) (debug 3) (space 0))
                        (type complex p1))
               (phase (the (eql #c(1.0d0 2.0d0)) p1))))
            #c(1.0d0 2.0d0))
           'double-float)))

;;; More out of line functions (%COS, %SIN, %TAN) for constant folding,
;;; reported by Mika Pihlajamäki
(with-test (:name (sin cos tan :constant-folding))
  (flet ((test (function)
           (funcall (checked-compile
                     `(lambda () (,function (tan (round 0))))))))
    (mapc #'test '(sin cos tan))))

(with-test (:name (:addition-overflow :bug-372)
            :fails-on '(or :arm64
                        (and :ppc :openbsd)
                        (and :ppc :darwin)
                        (and :x86 :netbsd)))
  (assert-error
   (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 :arm64
                        (and :ppc :openbsd)
                        (and :ppc :darwin)
                        (and :x86 :netbsd)))
  (assert-error
   (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))

;;; On x86-64 generating complex floats on the stack failed an aver in
;;; the compiler if the stack slot was the same as the one containing
;;; the real part of the complex. The following expression was able to
;;; trigger this in 0.9.5.62.
(with-test (:name :complex-float-stack)
  (dolist (type '((complex double-float)
                  (complex single-float)))
    (checked-compile `(lambda (x0 x1 x2 x3 x4 x5 x6 x7)
                        (declare (type ,type x0 x1 x2 x3 x4 x5 x6 x7))
                        (let ((x0 (+ x0 x0))
                              (x1 (+ x1 x1))
                              (x2 (+ x2 x2))
                              (x3 (+ x3 x3))
                              (x4 (+ x4 x4))
                              (x5 (+ x5 x5))
                              (x6 (+ x6 x6))
                              (x7 (+ x7 x7)))
                          (* (+ x0 x1 x2 x3) (+ x4 x5 x6 x7)
                             (+ x0 x2 x4 x6) (+ x1 x3 x5 x7)
                             (+ x0 x3 x4 x7) (+ x1 x2 x5 x6)
                             (+ x0 x1 x6 x7) (+ x2 x3 x4 x5)))))))

(with-test (:name (:nan :comparison)
            :fails-on '(or :sparc))
  (sb-int:with-float-traps-masked (:invalid)
    (macrolet ((test (form)
                 (let ((nform (subst '(/ 0.0 0.0) 'nan form)))
                   `(progn
                      (assert (eval ',nform))
                      (assert (eval `(let ((nan (/ 0.0 0.0)))
                                       ,',form)))
                      (assert (funcall
                               (checked-compile `(lambda () ,',nform))))
                      (assert (funcall
                               (checked-compile `(lambda (nan) ,',form))
                               (locally
                                   (declare (muffle-conditions style-warning))
                                 (/ 0.0 0.0))))))))
      (test (/= nan nan))
      (test (/= nan nan nan))
      (test (/= 1.0 nan 2.0 nan))
      (test (/= nan 1.0 2.0 nan))
      (test (not (= nan 1.0)))
      (test (not (= nan nan)))
      (test (not (= nan nan nan)))
      (test (not (= 1.0 nan)))
      (test (not (= nan 1.0)))
      (test (not (= 1.0 1.0 nan)))
      (test (not (= 1.0 nan 1.0)))
      (test (not (= nan 1.0 1.0)))
      (test (not (>= nan nan)))
      (test (not (>= nan 1.0)))
      (test (not (>= 1.0 nan)))
      (test (not (>= 1.0 nan 0.0)))
      (test (not (>= 1.0 0.0 nan)))
      (test (not (>= nan 1.0 0.0)))
      (test (not (<= nan nan)))
      (test (not (<= nan 1.0)))
      (test (not (<= 1.0 nan)))
      (test (not (<= 1.0 nan 2.0)))
      (test (not (<= 1.0 2.0 nan)))
      (test (not (<= nan 1.0 2.0)))
      (test (not (< nan nan)))
      (test (not (< -1.0 nan)))
      (test (not (< nan 1.0)))
      (test (not (> nan nan)))
      (test (not (> -1.0 nan)))
      (test (not (> nan 1.0))))))

(with-test (:name :log-int/double-accuracy)
  ;; we used to use single precision for intermediate results
  (assert (eql 2567.6046442221327d0
               (log (loop for n from 1 to 1000 for f = 1 then (* f n)
                          finally (return f))
                    10d0)))
  ;; both ways
  (assert (eql (log 123123123.0d0 10) (log 123123123 10.0d0))))

(with-test (:name :log-base-zero-return-type)
  (assert (eql 0.0f0 (log 123 (eval 0))))
  (assert (eql 0.0d0 (log 123.0d0 (eval 0))))
  (assert (eql 0.0d0 (log 123 (eval 0.0d0))))
  (let ((f (checked-compile '(lambda (x y)
                              (declare (optimize speed))
                              (etypecase x
                                (single-float
                                 (etypecase y
                                   (single-float (log x y))
                                   (double-float (log x y))))
                                (double-float
                                 (etypecase y
                                   (single-float (log x y))
                                   (double-float (log x y)))))))))
    (assert (eql 0.0f0 (funcall f 123.0 0.0)))
    (assert (eql 0.0d0 (funcall f 123.0d0 0.0)))
    (assert (eql 0.0d0 (funcall f 123.0d0 0.0d0)))
    (assert (eql 0.0d0 (funcall f 123.0 0.0d0)))))

;; 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.
#-interpreter
(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))))

;; On x86-64, MAKE-SINGLE-FLOAT with a negative argument used to set
;; bits 32-63 of the XMM register to 1, breaking the invariant that
;; unused parts of XMM registers are always zero. This could become
;; visible as a QNaN in the imaginary part when next using the register
;; in a (COMPLEX SINGLE-FLOAT) operation.
(with-test (:name :make-single-float-clear-imagpart)
  (let ((f (checked-compile
            '(lambda (x)
              (declare (optimize speed))
              (= #c(1.0f0 2.0f0)
               (+ #c(3.0f0 2.0f0)
                (sb-kernel:make-single-float x))))))
        (bits (sb-kernel:single-float-bits -2.0f0)))
    (assert (< bits 0))         ; Make sure the test is fit for purpose.
    (assert (funcall f bits))))

(with-test (:name :negative-zero-derivation)
  (assert (not
           (funcall (checked-compile
                     '(lambda (exponent)
                       (declare ((integer 0 1) exponent))
                       (eql 0d0 (scale-float -0.0d0 exponent))))
                    0))))

(with-test (:name :complex-eql-all-constants)
  (assert (funcall (checked-compile
                    '(lambda ()
                      (declare (optimize (debug 2)))
                      (typep #c(1.0 1.0) '(member #c(1.0 1.0))))))))