assem-rtns.lisp

开源跨平台Lisp编译器

;;;; 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")

;;;; Return-multiple with other than one value

#+sb-assembling ;; we don't want a vop for this one.
(define-assembly-routine
    (return-multiple
     (:return-style :none))

     ;; These four are really arguments.
    ((:temp nvals any-reg nargs-offset)
     (:temp vals any-reg nl0-offset)
     (:temp ocfp any-reg nl1-offset)
     (:temp lra descriptor-reg lra-offset)

     ;; These are just needed to facilitate the transfer
     (:temp count any-reg nl2-offset)
     (:temp src any-reg nl3-offset)
     (:temp dst any-reg nl4-offset)
     (:temp temp descriptor-reg l0-offset)

     ;; These are needed so we can get at the register args.
     (:temp a0 descriptor-reg a0-offset)
     (:temp a1 descriptor-reg a1-offset)
     (:temp a2 descriptor-reg a2-offset)
     (:temp a3 descriptor-reg a3-offset)
     (:temp a4 descriptor-reg a4-offset)
     (:temp a5 descriptor-reg a5-offset))

  ;; Note, because of the way the return-multiple vop is written, we can
  ;; assume that we are never called with nvals == 1 and that a0 has already
  ;; been loaded.
  (inst cmp nvals)
  (inst b :le default-a0-and-on)
  (inst cmp nvals (fixnumize 2))
  (inst b :le default-a2-and-on)
  (inst ld a1 vals (* 1 n-word-bytes))
  (inst cmp nvals (fixnumize 3))
  (inst b :le default-a3-and-on)
  (inst ld a2 vals (* 2 n-word-bytes))
  (inst cmp nvals (fixnumize 4))
  (inst b :le default-a4-and-on)
  (inst ld a3 vals (* 3 n-word-bytes))
  (inst cmp nvals (fixnumize 5))
  (inst b :le default-a5-and-on)
  (inst ld a4 vals (* 4 n-word-bytes))
  (inst cmp nvals (fixnumize 6))
  (inst b :le done)
  (inst ld a5 vals (* 5 n-word-bytes))

  ;; Copy the remaining args to the top of the stack.
  (inst add src vals (* 6 n-word-bytes))
  (inst add dst cfp-tn (* 6 n-word-bytes))
  (inst subcc count nvals (fixnumize 6))

  LOOP
  (inst ld temp src)
  (inst add src n-word-bytes)
  (inst st temp dst)
  (inst add dst n-word-bytes)
  (inst b :gt loop)
  (inst subcc count (fixnumize 1))

  (inst b done)
  (inst nop)

  DEFAULT-A0-AND-ON
  (inst move a0 null-tn)
  (inst move a1 null-tn)
  DEFAULT-A2-AND-ON
  (inst move a2 null-tn)
  DEFAULT-A3-AND-ON
  (inst move a3 null-tn)
  DEFAULT-A4-AND-ON
  (inst move a4 null-tn)
  DEFAULT-A5-AND-ON
  (inst move a5 null-tn)
  DONE

  ;; Clear the stack.
  (move ocfp-tn cfp-tn)
  (move cfp-tn ocfp)
  (inst add csp-tn ocfp-tn nvals)

  ;; Return.
  (lisp-return lra))



;;;; tail-call-variable.

#+sb-assembling ;; no vop for this one either.
(define-assembly-routine
    (tail-call-variable
     (:return-style :none))

    ;; These are really args.
    ((:temp args any-reg nl0-offset)
     (:temp lexenv descriptor-reg lexenv-offset)

     ;; We need to compute this
     (:temp nargs any-reg nargs-offset)

     ;; These are needed by the blitting code.
     (:temp src any-reg nl1-offset)
     (:temp dst any-reg nl2-offset)
     (:temp count any-reg nl3-offset)
     (:temp temp descriptor-reg l0-offset)

     ;; These are needed so we can get at the register args.
     (:temp a0 descriptor-reg a0-offset)
     (:temp a1 descriptor-reg a1-offset)
     (:temp a2 descriptor-reg a2-offset)
     (:temp a3 descriptor-reg a3-offset)
     (:temp a4 descriptor-reg a4-offset)
     (:temp a5 descriptor-reg a5-offset))


  ;; Calculate NARGS (as a fixnum)
  (inst sub nargs csp-tn args)

  ;; Load the argument regs (must do this now, 'cause the blt might
  ;; trash these locations)
  (inst ld a0 args (* 0 n-word-bytes))
  (inst ld a1 args (* 1 n-word-bytes))
  (inst ld a2 args (* 2 n-word-bytes))
  (inst ld a3 args (* 3 n-word-bytes))
  (inst ld a4 args (* 4 n-word-bytes))
  (inst ld a5 args (* 5 n-word-bytes))

  ;; Calc SRC, DST, and COUNT
  (inst addcc count nargs (fixnumize (- register-arg-count)))
  (inst b :le done)
  (inst add src args (* n-word-bytes register-arg-count))
  (inst add dst cfp-tn (* n-word-bytes register-arg-count))

  LOOP
  ;; Copy one arg.
  (inst ld temp src)
  (inst add src src n-word-bytes)
  (inst st temp dst)
  (inst addcc count (fixnumize -1))
  (inst b :gt loop)
  (inst add dst dst n-word-bytes)

  DONE
  ;; We are done.  Do the jump.
  (loadw temp lexenv closure-fun-slot fun-pointer-lowtag)
  (lisp-jump temp))



;;;; Non-local exit noise.

(define-assembly-routine (unwind
                          (:return-style :none)
                          (:translate %continue-unwind)
                          (:policy :fast-safe))
                         ((:arg block (any-reg descriptor-reg) a0-offset)
                          (:arg start (any-reg descriptor-reg) ocfp-offset)
                          (:arg count (any-reg descriptor-reg) nargs-offset)
                          (:temp lra descriptor-reg lra-offset)
                          (:temp cur-uwp any-reg nl0-offset)
                          (:temp next-uwp any-reg nl1-offset)
                          (:temp target-uwp any-reg nl2-offset))
  (declare (ignore start count))

  (let ((error (generate-error-code nil invalid-unwind-error)))
    (inst cmp block)
    (inst b :eq error))

  (load-symbol-value cur-uwp *current-unwind-protect-block*)
  (loadw target-uwp block unwind-block-current-uwp-slot)
  (inst cmp cur-uwp target-uwp)
  (inst b :ne do-uwp)
  (inst nop)

  (move cur-uwp block)

  DO-EXIT

  (loadw cfp-tn cur-uwp unwind-block-current-cont-slot)
  (loadw code-tn cur-uwp unwind-block-current-code-slot)
  (loadw lra cur-uwp unwind-block-entry-pc-slot)
  (lisp-return lra :frob-code nil)

  DO-UWP

  (loadw next-uwp cur-uwp unwind-block-current-uwp-slot)
  (inst b do-exit)
  (store-symbol-value next-uwp *current-unwind-protect-block*))


(define-assembly-routine (throw
                          (:return-style :none))
                         ((:arg target descriptor-reg a0-offset)
                          (:arg start any-reg ocfp-offset)
                          (:arg count any-reg nargs-offset)
                          (:temp catch any-reg a1-offset)
                          (:temp tag descriptor-reg a2-offset)
                          (:temp temp non-descriptor-reg nl0-offset))

  (declare (ignore start count))

  (load-symbol-value catch *current-catch-block*)

  loop

  (let ((error (generate-error-code nil unseen-throw-tag-error target)))
    (inst cmp catch)
    (inst b :eq error)
    (inst nop))

  (loadw tag catch catch-block-tag-slot)
  (inst cmp tag target)
  (inst b :eq exit)
  (inst nop)
  (loadw catch catch catch-block-previous-catch-slot)
  (inst b loop)
  (inst nop)

  exit

  (move target catch)
  (inst li temp (make-fixup 'unwind :assembly-routine))
  (inst j temp)
  (inst nop))