📄 nlx.lisp
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;;;; the SPARC definitions of VOPs used for non-local exit (throw,;;;; lexical exit, etc.);;;; This software is part of the SBCL system. See the README file for;;;; more information.;;;;;;;; This software is derived from the CMU CL system, which was;;;; written at Carnegie Mellon University and released into the;;;; public domain. The software is in the public domain and is;;;; provided with absolutely no warranty. See the COPYING and CREDITS;;;; files for more information.(in-package "SB!VM");;; Make an environment-live stack TN for saving the SP for NLX entry.(!def-vm-support-routine make-nlx-sp-tn (env) (physenv-live-tn (make-representation-tn *fixnum-primitive-type* immediate-arg-scn) env));;; Make a TN for the argument count passing location for a non-local;;; entry.(!def-vm-support-routine make-nlx-entry-arg-start-location () (make-wired-tn *fixnum-primitive-type* immediate-arg-scn ocfp-offset))
;;; save and restore dynamic environment.;;;;;; 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 were any;;; additional stacks, then this would be the place to restore the top;;; pointers.(define-vop (save-dynamic-state) (:results (catch :scs (descriptor-reg)) (nfp :scs (descriptor-reg)) (nsp :scs (descriptor-reg))) (:vop-var vop) (:generator 13 (load-symbol-value catch *current-catch-block*) (let ((cur-nfp (current-nfp-tn vop))) (when cur-nfp (move nfp cur-nfp))) (move nsp nsp-tn)))(define-vop (restore-dynamic-state) (:args (catch :scs (descriptor-reg)) (nfp :scs (descriptor-reg)) (nsp :scs (descriptor-reg))) (:vop-var vop) (:generator 10 (store-symbol-value catch *current-catch-block*) (let ((cur-nfp (current-nfp-tn vop))) (when cur-nfp (move cur-nfp nfp))) (move nsp-tn nsp)))(define-vop (current-stack-pointer) (:results (res :scs (any-reg descriptor-reg))) (:generator 1 (move res csp-tn)))(define-vop (current-binding-pointer) (:results (res :scs (any-reg descriptor-reg))) (:generator 1 (move res bsp-tn)))
;;;; unwind block hackery:;;; Compute the address of the catch block from its TN, then store;;; into the block the current Fp, Env, Unwind-Protect, and the entry;;; PC.(define-vop (make-unwind-block) (:args (tn)) (:info entry-label) (:results (block :scs (any-reg))) (:temporary (:scs (descriptor-reg)) temp) (:temporary (:scs (non-descriptor-reg)) ndescr) (:generator 22 (inst add block cfp-tn (* (tn-offset tn) n-word-bytes)) (load-symbol-value temp *current-unwind-protect-block*) (storew temp block unwind-block-current-uwp-slot) (storew cfp-tn block unwind-block-current-cont-slot) (storew code-tn block unwind-block-current-code-slot) (inst compute-lra-from-code temp code-tn entry-label ndescr) (storew temp block catch-block-entry-pc-slot)));;; Like Make-Unwind-Block, except that we also store in the specified tag, and;;; link the block into the Current-Catch list.(define-vop (make-catch-block) (:args (tn) (tag :scs (any-reg descriptor-reg))) (:info entry-label) (: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 add result cfp-tn (* (tn-offset tn) n-word-bytes)) (load-symbol-value temp *current-unwind-protect-block*) (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 temp code-tn entry-label ndescr) (storew temp result catch-block-entry-pc-slot) (storew tag result catch-block-tag-slot) (load-symbol-value temp *current-catch-block*) (storew temp result catch-block-previous-catch-slot) (store-symbol-value result *current-catch-block*) (move block result)));;; Just set the current unwind-protect to TN's address. This instantiates an;;; unwind block as an unwind-protect.(define-vop (set-unwind-protect) (:args (tn)) (:temporary (:scs (descriptor-reg)) new-uwp) (:generator 7 (inst add new-uwp cfp-tn (* (tn-offset tn) n-word-bytes)) (store-symbol-value new-uwp *current-unwind-protect-block*)))(define-vop (unlink-catch-block) (:temporary (:scs (any-reg)) block) (:policy :fast-safe) (:translate %catch-breakup) (:generator 17 (load-symbol-value block *current-catch-block*) (loadw block block catch-block-previous-catch-slot) (store-symbol-value block *current-catch-block*)))(define-vop (unlink-unwind-protect) (:temporary (:scs (any-reg)) block) (:policy :fast-safe) (:translate %unwind-protect-breakup) (:generator 17 (load-symbol-value block *current-unwind-protect-block*) (loadw block block unwind-block-current-uwp-slot) (store-symbol-value block *current-unwind-protect-block*)))
;;;; NLX entry VOPs:(define-vop (nlx-entry) (: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)) (:temporary (:scs (descriptor-reg)) move-temp) (:info label nvals) (:save-p :force-to-stack) (:vop-var vop) (:generator 30 (emit-return-pc label) (note-this-location vop :non-local-entry) (cond ((zerop nvals)) ((= nvals 1) (let ((no-values (gen-label))) (inst cmp count) (inst b :eq no-values) (move (tn-ref-tn values) null-tn) (loadw (tn-ref-tn values) start) (emit-label no-values))) (t (collect ((defaults)) (inst subcc count (fixnumize 1)) (do ((i 0 (1+ i)) (tn-ref values (tn-ref-across tn-ref))) ((null tn-ref)) (let ((default-lab (gen-label)) (tn (tn-ref-tn tn-ref))) (defaults (cons default-lab tn)) (inst b :lt default-lab) (inst subcc count (fixnumize 1)) (sc-case tn ((descriptor-reg any-reg) (loadw tn start i)) (control-stack (loadw move-temp start i) (store-stack-tn tn move-temp))))) (let ((defaulting-done (gen-label))) (emit-label defaulting-done) (assemble (*elsewhere*) (dolist (def (defaults)) (emit-label (car def)) (let ((tn (cdr def))) (sc-case tn ((descriptor-reg any-reg) (move tn null-tn)) (control-stack (store-stack-tn tn null-tn))))) (inst b defaulting-done) (inst nop)))))) (load-stack-tn csp-tn sp)))(define-vop (nlx-entry-multiple) (:args (top :target result) (src) (count)) ;; Again, no SC restrictions for the args, 'cause the loading would ;; happen before the entry label. (:info label) (:temporary (:scs (any-reg)) dst) (:temporary (:scs (descriptor-reg)) temp) (:results (result :scs (any-reg) :from (:argument 0)) (num :scs (any-reg) :from (:argument 0))) (:save-p :force-to-stack) (:vop-var vop) (:generator 30 (emit-return-pc label) (note-this-location vop :non-local-entry) (let ((loop (gen-label)) (done (gen-label))) ;; Setup results, and test for the zero value case. (load-stack-tn result top) (inst cmp count) (inst b :eq done) (inst li num 0) ;; Compute dst as one slot down from result, because we inc the index ;; before we use it. (inst sub dst result 4) ;; Copy stuff down the stack. (emit-label loop) (inst ld temp src num) (inst add num (fixnumize 1)) (inst cmp num count) (inst b :ne loop) (inst st temp dst num) ;; Reset the CSP. (emit-label done) (inst add csp-tn result num))));;; This VOP is just to force the TNs used in the cleanup onto the stack.;;;(define-vop (uwp-entry) (:info label) (:save-p :force-to-stack) (:results (block) (start) (count)) (:ignore block start count) (:vop-var vop) (:generator 0 (emit-return-pc label) (note-this-location vop :non-local-entry)))⌨️ 快捷键说明
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