(in-package "SB!VM")
-(define-move-function (load-immediate 1) (vop x y)
+(define-move-fun (load-immediate 1) (vop x y)
((immediate)
(any-reg descriptor-reg))
(let ((val (tn-value x)))
(etypecase val
(integer
(if (zerop val)
- (inst xor y y)
- (inst mov y (fixnumize val))))
+ (inst xor y y)
+ (inst mov y (fixnumize val))))
(symbol
(load-symbol y val))
(character
- (inst mov y (logior (ash (char-code val) type-bits)
- base-char-type))))))
+ (inst mov y (logior (ash (char-code val) n-widetag-bits)
+ character-widetag))))))
-(define-move-function (load-number 1) (vop x y)
+(define-move-fun (load-number 1) (vop x y)
((immediate) (signed-reg unsigned-reg))
(inst mov y (tn-value x)))
-(define-move-function (load-base-char 1) (vop x y)
- ((immediate) (base-char-reg))
+(define-move-fun (load-character 1) (vop x y)
+ ((immediate) (character-reg))
(inst mov y (char-code (tn-value x))))
-(define-move-function (load-system-area-pointer 1) (vop x y)
+(define-move-fun (load-system-area-pointer 1) (vop x y)
((immediate) (sap-reg))
(inst mov y (sap-int (tn-value x))))
-(define-move-function (load-constant 5) (vop x y)
+(define-move-fun (load-constant 5) (vop x y)
((constant) (descriptor-reg any-reg))
(inst mov y x))
-(define-move-function (load-stack 5) (vop x y)
+(define-move-fun (load-stack 5) (vop x y)
((control-stack) (any-reg descriptor-reg)
- (base-char-stack) (base-char-reg)
+ (character-stack) (character-reg)
(sap-stack) (sap-reg)
(signed-stack) (signed-reg)
(unsigned-stack) (unsigned-reg))
(inst mov y x))
-(define-move-function (store-stack 5) (vop x y)
+(define-move-fun (store-stack 5) (vop x y)
((any-reg descriptor-reg) (control-stack)
- (base-char-reg) (base-char-stack)
+ (character-reg) (character-stack)
(sap-reg) (sap-stack)
(signed-reg) (signed-stack)
(unsigned-reg) (unsigned-stack))
;;;; the MOVE VOP
(define-vop (move)
(:args (x :scs (any-reg descriptor-reg immediate) :target y
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:results (y :scs (any-reg descriptor-reg)
- :load-if
- (not (or (location= x y)
- (and (sc-is x any-reg descriptor-reg immediate)
- (sc-is y control-stack))))))
+ :load-if
+ (not (or (location= x y)
+ (and (sc-is x any-reg descriptor-reg immediate)
+ (sc-is y control-stack))))))
(:effects)
(:affected)
(:generator 0
(if (and (sc-is x immediate)
- (sc-is y any-reg descriptor-reg control-stack))
- (let ((val (tn-value x)))
- (etypecase val
- (integer
- (if (and (zerop val) (sc-is y any-reg descriptor-reg))
- (inst xor y y)
- (inst mov y (fixnumize val))))
- (symbol
- (inst mov y (+ nil-value (static-symbol-offset val))))
- (character
- (inst mov y (logior (ash (char-code val) type-bits)
- base-char-type)))))
+ (sc-is y any-reg descriptor-reg control-stack))
+ (let ((val (tn-value x)))
+ (etypecase val
+ (integer
+ (if (and (zerop val) (sc-is y any-reg descriptor-reg))
+ (inst xor y y)
+ (inst mov y (fixnumize val))))
+ (symbol
+ (inst mov y (+ nil-value (static-symbol-offset val))))
+ (character
+ (inst mov y (logior (ash (char-code val) n-widetag-bits)
+ character-widetag)))))
(move y x))))
(define-move-vop move :move
(any-reg descriptor-reg immediate)
(any-reg descriptor-reg))
-;;; Make Move the check VOP for T so that type check generation
+;;; Make MOVE the check VOP for T so that type check generation
;;; doesn't think it is a hairy type. This also allows checking of a
;;; few of the values in a continuation to fall out.
(primitive-type-vop move (:check) t)
-;;; The Move-Argument VOP is used for moving descriptor values into
+;;; The MOVE-ARG VOP is used for moving descriptor values into
;;; another frame for argument or known value passing.
;;;
;;; Note: It is not going to be possible to move a constant directly
;;; to another frame, except if the destination is a register and in
;;; this case the loading works out.
-(define-vop (move-argument)
+(define-vop (move-arg)
(:args (x :scs (any-reg descriptor-reg immediate) :target y
- :load-if (not (and (sc-is y any-reg descriptor-reg)
- (sc-is x control-stack))))
- (fp :scs (any-reg)
- :load-if (not (sc-is y any-reg descriptor-reg))))
+ :load-if (not (and (sc-is y any-reg descriptor-reg)
+ (sc-is x control-stack))))
+ (fp :scs (any-reg)
+ :load-if (not (sc-is y any-reg descriptor-reg))))
(:results (y))
(:generator 0
(sc-case y
((any-reg descriptor-reg)
(if (sc-is x immediate)
- (let ((val (tn-value x)))
- (etypecase val
- (integer
- (if (zerop val)
- (inst xor y y)
- (inst mov y (fixnumize val))))
- (symbol
- (load-symbol y val))
- (character
- (inst mov y (logior (ash (char-code val) type-bits)
- base-char-type)))))
- (move y x)))
+ (let ((val (tn-value x)))
+ (etypecase val
+ (integer
+ (if (zerop val)
+ (inst xor y y)
+ (inst mov y (fixnumize val))))
+ (symbol
+ (load-symbol y val))
+ (character
+ (inst mov y (logior (ash (char-code val) n-widetag-bits)
+ character-widetag)))))
+ (move y x)))
((control-stack)
(if (sc-is x immediate)
- (let ((val (tn-value x)))
- (if (= (tn-offset fp) esp-offset)
- ;; C-call
- (etypecase val
- (integer
- (storew (fixnumize val) fp (tn-offset y)))
- (symbol
- (storew (+ nil-value (static-symbol-offset val))
- fp (tn-offset y)))
- (character
- (storew (logior (ash (char-code val) type-bits)
- base-char-type)
- fp (tn-offset y))))
- ;; Lisp stack
- (etypecase val
- (integer
- (storew (fixnumize val) fp (- (1+ (tn-offset y)))))
- (symbol
- (storew (+ nil-value (static-symbol-offset val))
- fp (- (1+ (tn-offset y)))))
- (character
- (storew (logior (ash (char-code val) type-bits)
- base-char-type)
- fp (- (1+ (tn-offset y))))))))
- (if (= (tn-offset fp) esp-offset)
- ;; C-call
- (storew x fp (tn-offset y))
- ;; Lisp stack
- (storew x fp (- (1+ (tn-offset y))))))))))
+ (let ((val (tn-value x)))
+ (if (= (tn-offset fp) esp-offset)
+ ;; C-call
+ (etypecase val
+ (integer
+ (storew (fixnumize val) fp (tn-offset y)))
+ (symbol
+ (storew (+ nil-value (static-symbol-offset val))
+ fp (tn-offset y)))
+ (character
+ (storew (logior (ash (char-code val) n-widetag-bits)
+ character-widetag)
+ fp (tn-offset y))))
+ ;; Lisp stack
+ (etypecase val
+ (integer
+ (storew (fixnumize val) fp (- (1+ (tn-offset y)))))
+ (symbol
+ (storew (+ nil-value (static-symbol-offset val))
+ fp (- (1+ (tn-offset y)))))
+ (character
+ (storew (logior (ash (char-code val) n-widetag-bits)
+ character-widetag)
+ fp (- (1+ (tn-offset y))))))))
+ (if (= (tn-offset fp) esp-offset)
+ ;; C-call
+ (storew x fp (tn-offset y))
+ ;; Lisp stack
+ (storew x fp (- (1+ (tn-offset y))))))))))
-(define-move-vop move-argument :move-argument
+(define-move-vop move-arg :move-arg
(any-reg descriptor-reg)
(any-reg descriptor-reg))
\f
;;; possible bignum arg SCs.
(define-vop (move-to-word/fixnum)
(:args (x :scs (any-reg descriptor-reg) :target y
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:results (y :scs (signed-reg unsigned-reg)
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:arg-types tagged-num)
(:note "fixnum untagging")
(:generator 1
(:results (y :scs (signed-reg unsigned-reg)))
(:note "integer to untagged word coercion")
(:temporary (:sc unsigned-reg :offset eax-offset
- :from (:argument 0) :to (:result 0) :target y) eax)
+ :from (:argument 0) :to (:result 0) :target y) eax)
(:generator 4
(move eax x)
(inst test al-tn 3)
;;; restriction because of the control-stack ambiguity noted above.
(define-vop (move-from-word/fixnum)
(:args (x :scs (signed-reg unsigned-reg) :target y
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:results (y :scs (any-reg descriptor-reg)
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:result-types tagged-num)
(:note "fixnum tagging")
(:generator 1
(cond ((and (sc-is x signed-reg unsigned-reg)
- (not (location= x y)))
- ;; Uses 7 bytes, but faster on the Pentium
- (inst lea y (make-ea :dword :index x :scale 4)))
- (t
- ;; Uses: If x is a reg 2 + 3; if x = y uses only 3 bytes
- (move y x)
- (inst shl y 2)))))
+ (not (location= x y)))
+ ;; Uses 7 bytes, but faster on the Pentium
+ (inst lea y (make-ea :dword :index x :scale 4)))
+ (t
+ ;; Uses: If x is a reg 2 + 3; if x = y uses only 3 bytes
+ (move y x)
+ (inst shl y 2)))))
(define-move-vop move-from-word/fixnum :move
(signed-reg unsigned-reg) (any-reg descriptor-reg))
(:args (x :scs (signed-reg unsigned-reg) :target eax))
(:temporary (:sc unsigned-reg :offset eax-offset :from (:argument 0)) eax)
(:temporary (:sc unsigned-reg :offset ebx-offset :to (:result 0) :target y)
- ebx)
+ ebx)
(:temporary (:sc unsigned-reg :offset ecx-offset
- :from (:argument 0) :to (:result 0)) ecx)
+ :from (:argument 0) :to (:result 0)) ecx)
(:ignore ecx)
(:results (y :scs (any-reg descriptor-reg)))
(:note "signed word to integer coercion")
(:generator 20
(aver (not (location= x y)))
(let ((bignum (gen-label))
- (done (gen-label)))
+ (done (gen-label)))
(inst mov y x)
(inst shl y 1)
(inst jmp :o bignum)
;; emit-label done
(assemble (*elsewhere*)
- (emit-label bignum)
- (with-fixed-allocation
- (y bignum-type (+ bignum-digits-offset 1) node)
- (storew x y bignum-digits-offset other-pointer-lowtag))
- (inst jmp done)))))
+ (emit-label bignum)
+ (with-fixed-allocation
+ (y bignum-widetag (+ bignum-digits-offset 1) node)
+ (storew x y bignum-digits-offset other-pointer-lowtag))
+ (inst jmp done)))))
(define-move-vop move-from-signed :move
(signed-reg) (descriptor-reg))
(:args (x :scs (signed-reg unsigned-reg) :target eax))
(:temporary (:sc unsigned-reg :offset eax-offset :from (:argument 0)) eax)
(:temporary (:sc unsigned-reg :offset ebx-offset :to (:result 0) :target y)
- ebx)
+ ebx)
(:temporary (:sc unsigned-reg :offset ecx-offset
- :from (:argument 0) :to (:result 0)) ecx)
+ :from (:argument 0) :to (:result 0)) ecx)
(:ignore ecx)
(:results (y :scs (any-reg descriptor-reg)))
(:note "unsigned word to integer coercion")
(aver (not (location= x alloc)))
(aver (not (location= y alloc)))
(let ((bignum (gen-label))
- (done (gen-label))
- (one-word-bignum (gen-label))
- (L1 (gen-label)))
+ (done (gen-label))
+ (one-word-bignum (gen-label))
+ (L1 (gen-label)))
(inst test x #xe0000000)
(inst jmp :nz bignum)
;; Fixnum.
(emit-label done)
(assemble (*elsewhere*)
- (emit-label bignum)
- ;; Note: As on the mips port, space for a two word bignum is
- ;; always allocated and the header size is set to either one
- ;; or two words as appropriate.
- (inst jmp :ns one-word-bignum)
- ;; Two word bignum.
- (inst mov y (logior (ash (1- (+ bignum-digits-offset 2))
- sb!vm:type-bits)
- bignum-type))
- (inst jmp L1)
- (emit-label one-word-bignum)
- (inst mov y (logior (ash (1- (+ bignum-digits-offset 1))
- sb!vm:type-bits)
- bignum-type))
- (emit-label L1)
- (pseudo-atomic
- (allocation alloc (pad-data-block (+ bignum-digits-offset 2)) node)
- (storew y alloc)
- (inst lea y (make-ea :byte :base alloc :disp other-pointer-lowtag))
- (storew x y bignum-digits-offset other-pointer-lowtag))
- (inst jmp done)))))
+ (emit-label bignum)
+ ;; Note: As on the mips port, space for a two word bignum is
+ ;; always allocated and the header size is set to either one
+ ;; or two words as appropriate.
+ (inst jmp :ns one-word-bignum)
+ ;; two word bignum
+ (inst mov y (logior (ash (1- (+ bignum-digits-offset 2))
+ n-widetag-bits)
+ bignum-widetag))
+ (inst jmp L1)
+ (emit-label one-word-bignum)
+ (inst mov y (logior (ash (1- (+ bignum-digits-offset 1))
+ n-widetag-bits)
+ bignum-widetag))
+ (emit-label L1)
+ (pseudo-atomic
+ (allocation alloc (pad-data-block (+ bignum-digits-offset 2)) node)
+ (storew y alloc)
+ (inst lea y (make-ea :byte :base alloc :disp other-pointer-lowtag))
+ (storew x y bignum-digits-offset other-pointer-lowtag))
+ (inst jmp done)))))
(define-move-vop move-from-unsigned :move
(unsigned-reg) (descriptor-reg))
;;; Move untagged numbers.
(define-vop (word-move)
(:args (x :scs (signed-reg unsigned-reg) :target y
- :load-if (not (location= x y))))
+ :load-if (not (location= x y))))
(:results (y :scs (signed-reg unsigned-reg)
- :load-if
- (not (or (location= x y)
- (and (sc-is x signed-reg unsigned-reg)
- (sc-is y signed-stack unsigned-stack))))))
+ :load-if
+ (not (or (location= x y)
+ (and (sc-is x signed-reg unsigned-reg)
+ (sc-is y signed-stack unsigned-stack))))))
(:effects)
(:affected)
(:note "word integer move")
(signed-reg unsigned-reg) (signed-reg unsigned-reg))
;;; Move untagged number arguments/return-values.
-(define-vop (move-word-argument)
+(define-vop (move-word-arg)
(:args (x :scs (signed-reg unsigned-reg) :target y)
- (fp :scs (any-reg) :load-if (not (sc-is y sap-reg))))
+ (fp :scs (any-reg) :load-if (not (sc-is y sap-reg))))
(:results (y))
(:note "word integer argument move")
(:generator 0
(move y x))
((signed-stack unsigned-stack)
(if (= (tn-offset fp) esp-offset)
- (storew x fp (tn-offset y)) ; c-call
- (storew x fp (- (1+ (tn-offset y)))))))))
-(define-move-vop move-word-argument :move-argument
+ (storew x fp (tn-offset y)) ; c-call
+ (storew x fp (- (1+ (tn-offset y)))))))))
+(define-move-vop move-word-arg :move-arg
(descriptor-reg any-reg signed-reg unsigned-reg) (signed-reg unsigned-reg))
-;;; Use standard MOVE-ARGUMENT and coercion to move an untagged number
+;;; Use standard MOVE-ARG and coercion to move an untagged number
;;; to a descriptor passing location.
-(define-move-vop move-argument :move-argument
+(define-move-vop move-arg :move-arg
(signed-reg unsigned-reg) (any-reg descriptor-reg))