;;; non-local entry.
(!def-vm-support-routine make-nlx-entry-arg-start-location ()
(make-wired-tn *fixnum-primitive-type* immediate-arg-scn ocfp-offset))
-
\f
;;; Save and restore dynamic environment.
;;;
-;;; These VOPs are used in the reentered function to restore the appropriate
+;;; These VOPs are used in the reentered function to restore the appropriate
;;; dynamic environment. Currently we only save the Current-Catch and binding
;;; stack pointer. We don't need to save/restore the current unwind-protect,
;;; since unwind-protects are implicitly processed during unwinding. If there
(:args (tn)
(tag :scs (any-reg descriptor-reg)))
(:info entry-label)
- (:results (block :scs (any-reg) :from (:argument 0)))
+ (:results (block :scs (any-reg)))
(:temporary (:scs (descriptor-reg)) temp)
+ (:temporary (:scs (descriptor-reg) :target block :to (:result 0)) result)
(:temporary (:scs (non-descriptor-reg)) ndescr)
(:generator 44
- (inst addi (* (tn-offset tn) n-word-bytes) cfp-tn block)
+ (inst addi (* (tn-offset tn) n-word-bytes) cfp-tn result)
(load-symbol-value temp *current-unwind-protect-block*)
- (storew temp block catch-block-current-uwp-slot)
- (storew cfp-tn block catch-block-current-cont-slot)
- (storew code-tn block catch-block-current-code-slot)
+ (storew temp result catch-block-current-uwp-slot)
+ (storew cfp-tn result catch-block-current-cont-slot)
+ (storew code-tn result catch-block-current-code-slot)
(inst compute-lra-from-code code-tn entry-label ndescr temp)
- (storew temp block catch-block-entry-pc-slot)
+ (storew temp result catch-block-entry-pc-slot)
- (storew tag block catch-block-tag-slot)
+ (storew tag result catch-block-tag-slot)
(load-symbol-value temp *current-catch-block*)
- (storew temp block catch-block-previous-catch-slot)
- (store-symbol-value block *current-catch-block*)))
-
+ (storew temp result catch-block-previous-catch-slot)
+ (store-symbol-value result *current-catch-block*)
+ (move result block)))
;;; Just set the current unwind-protect to TN's address. This instantiates an
;;; unwind block as an unwind-protect.
(define-vop (nlx-entry)
- (:args (sp) ; Note: we can't list an sc-restriction, 'cause any load vops
- ; would be inserted before the LRA.
+ (:args (sp) ;; Note: we can't list an sc-restriction, 'cause any load vops
+ ;; would be inserted before the LRA.
(start)
(count))
(:results (values :more t))
(note-this-location vop :non-local-entry)
(cond ((zerop nvals))
((= nvals 1)
+ (loadw (tn-ref-tn values) start)
(inst comclr count zero-tn zero-tn :<>)
- (inst move null-tn (tn-ref-tn values) :tr)
- (loadw (tn-ref-tn values) start))
+ (move null-tn (tn-ref-tn values) t))
(t
(collect ((defaults))
(do ((i 0 (1+ i))
(let ((default-lab (gen-label))
(tn (tn-ref-tn tn-ref)))
(defaults (cons default-lab tn))
-
- (inst bci := nil (fixnumize i) count default-lab)
+ (inst comb := zero-tn count default-lab)
+ (inst addi (fixnumize -1) count count)
(sc-case tn
((descriptor-reg any-reg)
- (loadw tn start i))
+ (loadw tn start i))
(control-stack
- (loadw move-temp start i)
- (store-stack-tn tn move-temp)))))
-
+ (loadw move-temp start i)
+ (store-stack-tn tn move-temp)))))
(let ((defaulting-done (gen-label)))
(emit-label defaulting-done)
-
(assemble (*elsewhere*)
- (do ((defs (defaults) (cdr defs)))
- ((null defs))
- (let ((def (car defs)))
- (emit-label (car def))
- (unless (cdr defs)
- (inst b defaulting-done))
- (let ((tn (cdr def)))
- (sc-case tn
- ((descriptor-reg any-reg)
- (move null-tn tn))
- (control-stack
- (store-stack-tn tn null-tn)))))))))))
+ (dolist (def (defaults))
+ (emit-label (car def))
+ (let ((tn (cdr def)))
+ (sc-case tn
+ ((descriptor-reg any-reg)
+ (move null-tn tn))
+ (control-stack
+ (store-stack-tn tn null-tn)))))
+ (inst b defaulting-done :nullify t))))))
(load-stack-tn csp-tn sp)))
(:generator 30
(emit-return-pc label)
(note-this-location vop :non-local-entry)
-
- ;; Copy args.
- (load-stack-tn dst top)
- (move start src)
- (move count num)
-
- ;; Establish results.
- (sc-case new-start
- (any-reg (move dst new-start))
- (control-stack (store-stack-tn new-start dst)))
- (inst comb := num zero-tn done)
- (sc-case new-count
- (any-reg (inst move num new-count))
- (control-stack (store-stack-tn new-count num)))
- ;; Load the first word.
- (inst ldwm n-word-bytes src temp)
-
- ;; Copy stuff on stack.
- LOOP
- (inst stwm temp n-word-bytes dst)
- (inst addib :<> (fixnumize -1) num loop :nullify t)
- (inst ldwm n-word-bytes src temp)
-
- DONE
- (inst move dst csp-tn)))
-
+ (let ((loop (gen-label))
+ (done (gen-label)))
+
+ ;; Copy args.
+ (load-stack-tn dst top)
+ (move start src)
+ (move count num)
+
+ ;; Establish results.
+ (sc-case new-start
+ (any-reg (move dst new-start))
+ (control-stack (store-stack-tn new-start dst)))
+ (inst comb := num zero-tn done :nullify t)
+ (sc-case new-count
+ (any-reg (move num new-count))
+ (control-stack (store-stack-tn new-count num)))
+
+ ;; Copy stuff on stack.
+ (emit-label loop)
+ (inst ldwm n-word-bytes src temp)
+ (inst addib :<> (fixnumize -1) num loop)
+ (inst stwm temp n-word-bytes dst)
+
+ (emit-label done)
+ (move dst csp-tn))))
;;; This VOP is just to force the TNs used in the cleanup onto the stack.
;;;