(define-vop (fast-lognot/fixnum fixnum-unop)
(:translate lognot)
- (:generator 2
+ (:generator 1
(move res x)
(inst xor res (fixnumize -1))))
(define-vop (fast-lognot/signed signed-unop)
(:translate lognot)
- (:generator 1
+ (:generator 2
(move res x)
(inst not res)))
\f
(:vop-var vop)
(:save-p :compute-only)
(:generator 31
- (let ((zero (generate-error-code vop division-by-zero-error x y)))
+ (let ((zero (generate-error-code vop 'division-by-zero-error x y)))
(if (sc-is y any-reg)
(inst test y y) ; smaller instruction
(inst cmp y 0))
(:vop-var vop)
(:save-p :compute-only)
(:generator 33
- (let ((zero (generate-error-code vop division-by-zero-error x y)))
+ (let ((zero (generate-error-code vop 'division-by-zero-error x y)))
(if (sc-is y unsigned-reg)
(inst test y y) ; smaller instruction
(inst cmp y 0))
(:vop-var vop)
(:save-p :compute-only)
(:generator 33
- (let ((zero (generate-error-code vop division-by-zero-error x y)))
+ (let ((zero (generate-error-code vop 'division-by-zero-error x y)))
(if (sc-is y signed-reg)
(inst test y y) ; smaller instruction
(inst cmp y 0))
(inst lea result (make-ea :dword :index number :scale 8)))
(t
(move result number)
- (cond ((plusp amount)
- ;; We don't have to worry about overflow because of the
- ;; result type restriction.
- (inst shl result amount))
- (t
- ;; If the amount is greater than 31, only shift by 31. We
- ;; have to do this because the shift instructions only look
- ;; at the low five bits of the result.
- (inst sar result (min 31 (- amount)))
- ;; Fixnum correction.
- (inst and result (lognot fixnum-tag-mask))))))))
+ (cond ((< -32 amount 32)
+ ;; this code is used both in ASH and ASH-SMOD30, so
+ ;; be careful
+ (if (plusp amount)
+ (inst shl result amount)
+ (progn
+ (inst sar result (- amount))
+ (inst and result (lognot fixnum-tag-mask)))))
+ ((plusp amount)
+ (if (sc-is result any-reg)
+ (inst xor result result)
+ (inst mov result 0)))
+ (t (inst sar result 31)
+ (inst and result (lognot fixnum-tag-mask))))))))
(define-vop (fast-ash-left/fixnum=>fixnum)
(:translate ash)
(:result-types unsigned-num)
(:generator 28
(move res arg)
- (inst cmp res 0)
+ (if (sc-is res unsigned-reg)
+ (inst test res res)
+ (inst cmp res 0))
(inst jmp :ge POS)
(inst not res)
POS
(svop30f (intern (format nil "FAST-~S-SMOD30/FIXNUM=>FIXNUM" name)))
(svop30cf (intern (format nil "FAST-~S-SMOD30-C/FIXNUM=>FIXNUM" name))))
`(progn
- (define-modular-fun ,fun32 (x y) ,name :unsigned 32)
- (define-modular-fun ,sfun30 (x y) ,name :signed 30)
+ (define-modular-fun ,fun32 (x y) ,name :untagged nil 32)
+ (define-modular-fun ,sfun30 (x y) ,name :tagged t 30)
(define-mod-binop (,vop32u ,vopu) ,fun32)
(define-vop (,vop32f ,vopf) (:translate ,fun32))
(define-vop (,svop30f ,vopf) (:translate ,sfun30))
(signed-byte 30)
(foldable flushable movable))
-(define-modular-fun-optimizer %lea ((base index scale disp) :unsigned :width width)
+(define-modular-fun-optimizer %lea ((base index scale disp) :untagged nil :width width)
(when (and (<= width 32)
(constant-lvar-p scale)
(constant-lvar-p disp))
- (cut-to-width base :unsigned width)
- (cut-to-width index :unsigned width)
+ (cut-to-width base :untagged width nil)
+ (cut-to-width index :untagged width nil)
'sb!vm::%lea-mod32))
-(define-modular-fun-optimizer %lea ((base index scale disp) :signed :width width)
+(define-modular-fun-optimizer %lea ((base index scale disp) :tagged t :width width)
(when (and (<= width 30)
(constant-lvar-p scale)
(constant-lvar-p disp))
- (cut-to-width base :signed width)
- (cut-to-width index :signed width)
+ (cut-to-width base :tagged width t)
+ (cut-to-width index :tagged width t)
'sb!vm::%lea-smod30))
#+sb-xc-host
(:translate %lea-smod30))
;;; logical operations
-(define-modular-fun lognot-mod32 (x) lognot :unsigned 32)
+(define-modular-fun lognot-mod32 (x) lognot :untagged nil 32)
(define-vop (lognot-mod32/word=>unsigned)
(:translate lognot-mod32)
(:args (x :scs (unsigned-reg signed-reg unsigned-stack signed-stack) :target r
(move r x)
(inst not r)))
-(define-modular-fun logxor-mod32 (x y) logxor :unsigned 32)
-(define-mod-binop (fast-logxor-mod32/word=>unsigned
- fast-logxor/unsigned=>unsigned)
- logxor-mod32)
-(define-mod-binop-c (fast-logxor-mod32-c/word=>unsigned
- fast-logxor-c/unsigned=>unsigned)
- logxor-mod32)
-(define-vop (fast-logxor-mod32/fixnum=>fixnum
- fast-logxor/fixnum=>fixnum)
- (:translate logxor-mod32))
-(define-vop (fast-logxor-mod32-c/fixnum=>fixnum
- fast-logxor-c/fixnum=>fixnum)
- (:translate logxor-mod32))
-
(define-source-transform logeqv (&rest args)
(if (oddp (length args))
`(logxor ,@args)
(:results (y :scs (unsigned-reg) :from (:eval 0)))
(:result-types unsigned-num)
(:generator 50
- (inst mov k (make-ea :dword :base state
- :disp (- (* (+ 2 vector-data-offset)
- n-word-bytes)
- other-pointer-lowtag)))
+ (loadw k state (+ 2 vector-data-offset) other-pointer-lowtag)
(inst cmp k 624)
(inst jmp :ne no-update)
(inst mov tmp state) ; The state is passed in EAX.
(inst xor k k)
NO-UPDATE
;; y = ptgfsr[k++];
- (inst mov y (make-ea :dword :base state :index k :scale 4
- :disp (- (* (+ 3 vector-data-offset)
- n-word-bytes)
- other-pointer-lowtag)))
+ (inst mov y (make-ea-for-vector-data state :index k :offset 3))
;; y ^= (y >> 11);
(inst shr y 11)
- (inst xor y (make-ea :dword :base state :index k :scale 4
- :disp (- (* (+ 3 vector-data-offset)
- n-word-bytes)
- other-pointer-lowtag)))
+ (inst xor y (make-ea-for-vector-data state :index k :offset 3))
;; y ^= (y << 7) & #x9d2c5680
(inst mov tmp y)
(inst inc k)
(inst shl tmp 7)
- (inst mov (make-ea :dword :base state
- :disp (- (* (+ 2 vector-data-offset)
- n-word-bytes)
- other-pointer-lowtag))
- k)
+ (storew k state (+ 2 vector-data-offset) other-pointer-lowtag)
(inst and tmp #x9d2c5680)
(inst xor y tmp)
;; y ^= (y << 15) & #xefc60000