1 ;;;; the VM definition of function call for MIPS
3 ;;;; This software is part of the SBCL system. See the README file for
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
14 ;;;; Interfaces to IR2 conversion:
16 ;;; Return a wired TN describing the N'th full call argument passing
18 (!def-vm-support-routine standard-arg-location (n)
19 (declare (type unsigned-byte n))
20 (if (< n register-arg-count)
21 (make-wired-tn *backend-t-primitive-type*
23 (elt *register-arg-offsets* n))
24 (make-wired-tn *backend-t-primitive-type*
25 control-stack-arg-scn n)))
28 ;;; Make a passing location TN for a local call return PC. If standard is
29 ;;; true, then use the standard (full call) location, otherwise use any legal
30 ;;; location. Even in the non-standard case, this may be restricted by a
31 ;;; desire to use a subroutine call instruction.
32 (!def-vm-support-routine make-return-pc-passing-location (standard)
34 (make-wired-tn *backend-t-primitive-type* register-arg-scn lra-offset)
35 (make-restricted-tn *backend-t-primitive-type* register-arg-scn)))
37 ;;; This is similar to MAKE-RETURN-PC-PASSING-LOCATION, but makes a
38 ;;; location to pass OLD-FP in. This is (obviously) wired in the
39 ;;; standard convention, but is totally unrestricted in non-standard
40 ;;; conventions, since we can always fetch it off of the stack using
42 (!def-vm-support-routine make-old-fp-passing-location (standard)
44 (make-wired-tn *fixnum-primitive-type* immediate-arg-scn ocfp-offset)
45 (make-normal-tn *fixnum-primitive-type*)))
47 ;;; Make the TNs used to hold OLD-FP and RETURN-PC within the current
48 ;;; function. We treat these specially so that the debugger can find
49 ;;; them at a known location.
50 (!def-vm-support-routine make-old-fp-save-location (env)
52 (physenv-debug-live-tn (make-normal-tn *fixnum-primitive-type*) env)
53 (make-wired-tn *fixnum-primitive-type*
57 (!def-vm-support-routine make-return-pc-save-location (env)
58 (let ((ptype *backend-t-primitive-type*))
60 (physenv-debug-live-tn (make-normal-tn ptype) env)
61 (make-wired-tn ptype control-stack-arg-scn lra-save-offset))))
63 ;;; Make a TN for the standard argument count passing location. We only
64 ;;; need to make the standard location, since a count is never passed when we
65 ;;; are using non-standard conventions.
66 (!def-vm-support-routine make-arg-count-location ()
67 (make-wired-tn *fixnum-primitive-type* immediate-arg-scn nargs-offset))
70 ;;; Make a TN to hold the number-stack frame pointer. This is allocated
71 ;;; once per component, and is component-live.
72 (!def-vm-support-routine make-nfp-tn ()
74 (make-wired-tn *fixnum-primitive-type* immediate-arg-scn nfp-offset)))
76 (!def-vm-support-routine make-stack-pointer-tn ()
77 (make-normal-tn *fixnum-primitive-type*))
79 (!def-vm-support-routine make-number-stack-pointer-tn ()
80 (make-normal-tn *fixnum-primitive-type*))
82 ;;; Return a list of TNs that can be used to represent an unknown-values
83 ;;; continuation within a function.
84 (!def-vm-support-routine make-unknown-values-locations ()
85 (list (make-stack-pointer-tn)
86 (make-normal-tn *fixnum-primitive-type*)))
89 ;;; This function is called by the ENTRY-ANALYZE phase, allowing
90 ;;; VM-dependent initialization of the IR2-COMPONENT structure. We push
91 ;;; placeholder entries in the Constants to leave room for additional
92 ;;; noise in the code object header.
93 (!def-vm-support-routine select-component-format (component)
94 (declare (type component component))
95 (dotimes (i code-constants-offset)
96 (vector-push-extend nil
97 (ir2-component-constants (component-info component))))
103 ;;; BYTES-NEEDED-FOR-NON-DESCRIPTOR-STACK-FRAME -- internal
105 ;;; Return the number of bytes needed for the current non-descriptor stack
106 ;;; frame. Non-descriptor stack frames must be multiples of 8 bytes on
109 (defun bytes-needed-for-non-descriptor-stack-frame ()
110 (* (logandc2 (1+ (sb-allocated-size 'non-descriptor-stack)) 1)
113 ;;; Used for setting up the Old-FP in local call.
115 (define-vop (current-fp)
116 (:results (val :scs (any-reg)))
120 ;;; Used for computing the caller's NFP for use in known-values return. Only
121 ;;; works assuming there is no variable size stuff on the nstack.
123 (define-vop (compute-old-nfp)
124 (:results (val :scs (any-reg)))
127 (let ((nfp (current-nfp-tn vop)))
129 (inst addu val nfp (bytes-needed-for-non-descriptor-stack-frame))))))
132 (define-vop (xep-allocate-frame)
133 (:info start-lab copy-more-arg-follows)
134 (:ignore copy-more-arg-follows)
136 (:temporary (:scs (non-descriptor-reg)) temp)
138 ;; Make sure the function is aligned, and drop a label pointing to this
140 (align n-lowtag-bits)
141 (trace-table-entry trace-table-fun-prologue)
142 (emit-label start-lab)
143 ;; Allocate function header.
144 (inst simple-fun-header-word)
145 (dotimes (i (1- simple-fun-code-offset))
147 ;; The start of the actual code.
148 ;; Compute CODE from the address of this entry point.
149 (let ((entry-point (gen-label)))
150 (emit-label entry-point)
151 (inst compute-code-from-lip code-tn lip-tn entry-point temp)
152 ;; ### We should also save it on the stack so that the garbage collector
153 ;; won't forget about us if we call anyone else.
155 ;; Build our stack frames.
156 (inst addu csp-tn cfp-tn
157 (* n-word-bytes (sb-allocated-size 'control-stack)))
158 (let ((nfp (current-nfp-tn vop)))
160 (inst addu nsp-tn nsp-tn
161 (- (bytes-needed-for-non-descriptor-stack-frame)))
163 (trace-table-entry trace-table-normal)))
165 (define-vop (allocate-frame)
166 (:results (res :scs (any-reg))
167 (nfp :scs (any-reg)))
170 (trace-table-entry trace-table-fun-prologue)
172 (inst addu csp-tn csp-tn
173 (* n-word-bytes (sb-allocated-size 'control-stack)))
174 (when (ir2-physenv-number-stack-p callee)
175 (inst addu nsp-tn nsp-tn
176 (- (bytes-needed-for-non-descriptor-stack-frame)))
178 (trace-table-entry trace-table-normal)))
180 ;;; Allocate a partial frame for passing stack arguments in a full call. Nargs
181 ;;; is the number of arguments passed. If no stack arguments are passed, then
182 ;;; we don't have to do anything.
184 (define-vop (allocate-full-call-frame)
186 (:results (res :scs (any-reg)))
188 (when (> nargs register-arg-count)
190 (inst addu csp-tn csp-tn (* nargs n-word-bytes)))))
195 ;;; Emit code needed at the return-point from an unknown-values call for a
196 ;;; fixed number of values. Values is the head of the TN-Ref list for the
197 ;;; locations that the values are to be received into. Nvals is the number of
198 ;;; values that are to be received (should equal the length of Values).
200 ;;; MOVE-TEMP is a DESCRIPTOR-REG TN used as a temporary.
202 ;;; This code exploits the fact that in the unknown-values convention, a
203 ;;; single value return returns at the return PC + 8, whereas a return of other
204 ;;; than one value returns directly at the return PC.
206 ;;; If 0 or 1 values are expected, then we just emit an instruction to reset
207 ;;; the SP (which will only be executed when other than 1 value is returned.)
209 ;;; In the general case, we have to do three things:
210 ;;; -- Default unsupplied register values. This need only be done when a
211 ;;; single value is returned, since register values are defaulted by the
212 ;;; callee in the non-single case.
213 ;;; -- Default unsupplied stack values. This needs to be done whenever there
214 ;;; are stack values.
215 ;;; -- Reset SP. This must be done whenever other than 1 value is returned,
216 ;;; regardless of the number of values desired.
218 ;;; The general-case code looks like this:
220 b regs-defaulted ; Skip if MVs
223 move a1 null-tn ; Default register values
225 loadi nargs 1 ; Force defaulting of stack values
226 move ocfp csp ; Set up args for SP resetting
229 subu temp nargs register-arg-count
231 bltz temp default-value-7 ; jump to default code
233 loadw move-temp ocfp-tn 6 ; Move value to correct location.
234 store-stack-tn val4-tn move-temp
236 bltz temp default-value-8
238 loadw move-temp ocfp-tn 7
239 store-stack-tn val5-tn move-temp
244 move csp ocfp ; Reset SP.
249 store-stack-tn val4-tn null-tn ; Nil out 7'th value. (first on stack)
252 store-stack-tn val5-tn null-tn ; Nil out 8'th value.
260 (defun default-unknown-values (vop values nvals move-temp temp lra-label)
261 (declare (type (or tn-ref null) values)
262 (type unsigned-byte nvals) (type tn move-temp temp))
265 ;; Note that this is a single-value return point. This is actually
266 ;; the multiple-value entry point for a single desired value, but
267 ;; the code location has to be here, or the debugger backtrace
269 (without-scheduling ()
270 (note-this-location vop :single-value-return)
271 (move csp-tn ocfp-tn t)
274 (inst compute-code-from-lra code-tn code-tn lra-label temp)))
275 (let ((regs-defaulted (gen-label))
276 (defaulting-done (gen-label))
277 (default-stack-vals (gen-label)))
278 (without-scheduling ()
279 ;; Note that this is an unknown-values return point.
280 (note-this-location vop :unknown-return)
281 ;; Branch off to the MV case.
282 (inst b regs-defaulted)
283 ;; If there are no stack results, clear the stack now.
284 (if (> nvals register-arg-count)
285 (inst addu temp nargs-tn (fixnumize (- register-arg-count)))
286 (move csp-tn ocfp-tn t)))
288 ;; Do the single value case.
290 (val (tn-ref-across values) (tn-ref-across val)))
291 ((= i (min nvals register-arg-count)))
292 (move (tn-ref-tn val) null-tn))
293 (when (> nvals register-arg-count)
294 (inst b default-stack-vals)
295 (move ocfp-tn csp-tn t))
297 (emit-label regs-defaulted)
299 (when (> nvals register-arg-count)
300 ;; If there are stack results, we have to default them
301 ;; and clear the stack.
302 (collect ((defaults))
303 (do ((i register-arg-count (1+ i))
304 (val (do ((i 0 (1+ i))
305 (val values (tn-ref-across val)))
306 ((= i register-arg-count) val))
307 (tn-ref-across val)))
310 (let ((default-lab (gen-label))
311 (tn (tn-ref-tn val)))
312 (defaults (cons default-lab tn))
314 (inst blez temp default-lab)
315 (inst lw move-temp ocfp-tn (* i n-word-bytes))
316 (inst addu temp temp (fixnumize -1))
317 (store-stack-tn tn move-temp)))
319 (emit-label defaulting-done)
320 (move csp-tn ocfp-tn)
322 (let ((defaults (defaults)))
324 (assemble (*elsewhere*)
325 (emit-label default-stack-vals)
326 (trace-table-entry trace-table-fun-prologue)
327 (do ((remaining defaults (cdr remaining)))
329 (let ((def (car remaining)))
330 (emit-label (car def))
331 (when (null (cdr remaining))
332 (inst b defaulting-done))
333 (store-stack-tn (cdr def) null-tn)))
334 (trace-table-entry trace-table-normal)))))
337 (inst compute-code-from-lra code-tn code-tn lra-label temp))))
341 ;;;; Unknown values receiving:
343 ;;; Emit code needed at the return point for an unknown-values call for an
344 ;;; arbitrary number of values.
346 ;;; We do the single and non-single cases with no shared code: there doesn't
347 ;;; seem to be any potential overlap, and receiving a single value is more
348 ;;; important efficiency-wise.
350 ;;; When there is a single value, we just push it on the stack, returning
351 ;;; the old SP and 1.
353 ;;; When there is a variable number of values, we move all of the argument
354 ;;; registers onto the stack, and return Args and Nargs.
356 ;;; Args and Nargs are TNs wired to the named locations. We must
357 ;;; explicitly allocate these TNs, since their lifetimes overlap with the
358 ;;; results Start and Count (also, it's nice to be able to target them).
360 (defun receive-unknown-values (args nargs start count lra-label temp)
361 (declare (type tn args nargs start count temp))
362 (let ((variable-values (gen-label))
364 (without-scheduling ()
365 (inst b variable-values)
369 (inst compute-code-from-lra code-tn code-tn lra-label temp))
370 (inst addu csp-tn csp-tn 4)
371 (storew (first *register-arg-tns*) csp-tn -1)
372 (inst addu start csp-tn -4)
373 (inst li count (fixnumize 1))
377 (assemble (*elsewhere*)
378 (trace-table-entry trace-table-fun-prologue)
379 (emit-label variable-values)
381 (inst compute-code-from-lra code-tn code-tn lra-label temp))
382 (do ((arg *register-arg-tns* (rest arg))
385 (storew (first arg) args i))
389 (trace-table-entry trace-table-normal)))
393 ;;; VOP that can be inherited by unknown values receivers. The main thing this
394 ;;; handles is allocation of the result temporaries.
396 (define-vop (unknown-values-receiver)
398 (start :scs (any-reg))
399 (count :scs (any-reg)))
400 (:temporary (:sc descriptor-reg :offset ocfp-offset
401 :from :eval :to (:result 0))
403 (:temporary (:sc any-reg :offset nargs-offset
404 :from :eval :to (:result 1))
406 (:temporary (:scs (non-descriptor-reg)) temp))
410 ;;;; Local call with unknown values convention return:
412 ;;; Non-TR local call for a fixed number of values passed according to the
413 ;;; unknown values convention.
415 ;;; Args are the argument passing locations, which are specified only to
416 ;;; terminate their lifetimes in the caller.
418 ;;; Values are the return value locations (wired to the standard passing
421 ;;; Save is the save info, which we can ignore since saving has been done.
422 ;;; Return-PC is the TN that the return PC should be passed in.
423 ;;; Target is a continuation pointing to the start of the called function.
424 ;;; Nvals is the number of values received.
426 ;;; Note: we can't use normal load-tn allocation for the fixed args, since all
427 ;;; registers may be tied up by the more operand. Instead, we use
428 ;;; MAYBE-LOAD-STACK-TN.
430 (define-vop (call-local)
434 (:results (values :more t))
436 (:move-args :local-call)
437 (:info arg-locs callee target nvals)
439 (:temporary (:scs (descriptor-reg) :from :eval) move-temp)
440 (:temporary (:scs (non-descriptor-reg)) temp)
441 (:temporary (:sc control-stack :offset nfp-save-offset) nfp-save)
442 (:temporary (:sc any-reg :offset ocfp-offset :from :eval) ocfp)
443 (:ignore arg-locs args ocfp)
445 (let ((label (gen-label))
446 (cur-nfp (current-nfp-tn vop)))
448 (store-stack-tn nfp-save cur-nfp))
449 (let ((callee-nfp (callee-nfp-tn callee)))
451 (maybe-load-stack-tn callee-nfp nfp)))
452 (maybe-load-stack-tn cfp-tn fp)
453 (trace-table-entry trace-table-call-site)
454 (inst compute-lra-from-code
455 (callee-return-pc-tn callee) code-tn label temp)
456 (note-this-location vop :call-site)
459 (trace-table-entry trace-table-normal)
460 (emit-return-pc label)
461 (default-unknown-values vop values nvals move-temp temp label)
463 (load-stack-tn cur-nfp nfp-save)))))
466 ;;; Non-TR local call for a variable number of return values passed according
467 ;;; to the unknown values convention. The results are the start of the values
468 ;;; glob and the number of values received.
470 ;;; Note: we can't use normal load-tn allocation for the fixed args, since all
471 ;;; registers may be tied up by the more operand. Instead, we use
472 ;;; MAYBE-LOAD-STACK-TN.
474 (define-vop (multiple-call-local unknown-values-receiver)
479 (:move-args :local-call)
480 (:info save callee target)
483 (:temporary (:sc control-stack :offset nfp-save-offset) nfp-save)
484 (:temporary (:scs (non-descriptor-reg)) temp)
486 (let ((label (gen-label))
487 (cur-nfp (current-nfp-tn vop)))
489 (store-stack-tn nfp-save cur-nfp))
490 (let ((callee-nfp (callee-nfp-tn callee)))
492 (maybe-load-stack-tn callee-nfp nfp)))
493 (maybe-load-stack-tn cfp-tn fp)
494 (trace-table-entry trace-table-call-site)
495 (inst compute-lra-from-code
496 (callee-return-pc-tn callee) code-tn label temp)
497 (note-this-location vop :call-site)
500 (trace-table-entry trace-table-normal)
501 (emit-return-pc label)
502 (note-this-location vop :unknown-return)
503 (receive-unknown-values values-start nvals start count label temp)
505 (load-stack-tn cur-nfp nfp-save)))))
508 ;;;; Local call with known values return:
510 ;;; Non-TR local call with known return locations. Known-value return works
511 ;;; just like argument passing in local call.
513 ;;; Note: we can't use normal load-tn allocation for the fixed args, since all
514 ;;; registers may be tied up by the more operand. Instead, we use
515 ;;; MAYBE-LOAD-STACK-TN.
517 (define-vop (known-call-local)
521 (:results (res :more t))
522 (:move-args :local-call)
524 (:info save callee target)
525 (:ignore args res save)
527 (:temporary (:sc control-stack :offset nfp-save-offset) nfp-save)
528 (:temporary (:scs (non-descriptor-reg)) temp)
530 (let ((label (gen-label))
531 (cur-nfp (current-nfp-tn vop)))
533 (store-stack-tn nfp-save cur-nfp))
534 (let ((callee-nfp (callee-nfp-tn callee)))
536 (maybe-load-stack-tn callee-nfp nfp)))
537 (maybe-load-stack-tn cfp-tn fp)
538 (trace-table-entry trace-table-call-site)
539 (inst compute-lra-from-code
540 (callee-return-pc-tn callee) code-tn label temp)
541 (note-this-location vop :call-site)
544 (trace-table-entry trace-table-normal)
545 (emit-return-pc label)
546 (note-this-location vop :known-return)
548 (load-stack-tn cur-nfp nfp-save)))))
550 ;;; Return from known values call. We receive the return locations as
551 ;;; arguments to terminate their lifetimes in the returning function. We
552 ;;; restore FP and CSP and jump to the Return-PC.
554 ;;; Note: we can't use normal load-tn allocation for the fixed args, since all
555 ;;; registers may be tied up by the more operand. Instead, we use
556 ;;; MAYBE-LOAD-STACK-TN.
558 (define-vop (known-return)
559 (:args (ocfp :target ocfp-temp)
560 (return-pc :target return-pc-temp)
562 (:temporary (:sc any-reg :from (:argument 0)) ocfp-temp)
563 (:temporary (:sc descriptor-reg :from (:argument 1))
565 (:temporary (:scs (interior-reg)) lip)
566 (:move-args :known-return)
568 (:ignore val-locs vals)
571 (trace-table-entry trace-table-fun-epilogue)
572 (maybe-load-stack-tn ocfp-temp ocfp)
573 (maybe-load-stack-tn return-pc-temp return-pc)
575 (let ((cur-nfp (current-nfp-tn vop)))
577 (inst addu nsp-tn cur-nfp
578 (bytes-needed-for-non-descriptor-stack-frame))))
579 (inst addu lip return-pc-temp (- n-word-bytes other-pointer-lowtag))
581 (move cfp-tn ocfp-temp t)
582 (trace-table-entry trace-table-normal)))
587 ;;; There is something of a cross-product effect with full calls. Different
588 ;;; versions are used depending on whether we know the number of arguments or
589 ;;; the name of the called function, and whether we want fixed values, unknown
590 ;;; values, or a tail call.
592 ;;; In full call, the arguments are passed creating a partial frame on the
593 ;;; stack top and storing stack arguments into that frame. On entry to the
594 ;;; callee, this partial frame is pointed to by FP. If there are no stack
595 ;;; arguments, we don't bother allocating a partial frame, and instead set FP
596 ;;; to SP just before the call.
598 ;;; This macro helps in the definition of full call VOPs by avoiding code
599 ;;; replication in defining the cross-product VOPs.
601 ;;; Name is the name of the VOP to define.
603 ;;; Named is true if the first argument is a symbol whose global function
604 ;;; definition is to be called.
606 ;;; Return is either :Fixed, :Unknown or :Tail:
607 ;;; -- If :Fixed, then the call is for a fixed number of values, returned in
608 ;;; the standard passing locations (passed as result operands).
609 ;;; -- If :Unknown, then the result values are pushed on the stack, and the
610 ;;; result values are specified by the Start and Count as in the
611 ;;; unknown-values continuation representation.
612 ;;; -- If :Tail, then do a tail-recursive call. No values are returned.
613 ;;; The Ocfp and Return-PC are passed as the second and third arguments.
615 ;;; In non-tail calls, the pointer to the stack arguments is passed as the last
616 ;;; fixed argument. If Variable is false, then the passing locations are
617 ;;; passed as a more arg. Variable is true if there are a variable number of
618 ;;; arguments passed on the stack. Variable cannot be specified with :Tail
619 ;;; return. TR variable argument call is implemented separately.
621 ;;; In tail call with fixed arguments, the passing locations are passed as a
622 ;;; more arg, but there is no new-FP, since the arguments have been set up in
623 ;;; the current frame.
625 (defmacro define-full-call (name named return variable)
626 (aver (not (and variable (eq return :tail))))
628 ,@(when (eq return :unknown)
629 '(unknown-values-receiver)))
631 ,@(unless (eq return :tail)
632 '((new-fp :scs (any-reg) :to :eval)))
635 '(name :target name-pass)
636 '(arg-fun :target lexenv))
638 ,@(when (eq return :tail)
639 '((ocfp :target ocfp-pass)
640 (return-pc :target return-pc-pass)))
642 ,@(unless variable '((args :more t :scs (descriptor-reg)))))
644 ,@(when (eq return :fixed)
645 '((:results (values :more t))))
647 (:save-p ,(if (eq return :tail) :compute-only t))
649 ,@(unless (or (eq return :tail) variable)
650 '((:move-args :full-call)))
653 (:info ,@(unless (or variable (eq return :tail)) '(arg-locs))
654 ,@(unless variable '(nargs))
655 ,@(when (eq return :fixed) '(nvals))
658 (:ignore ,@(unless (or variable (eq return :tail)) '(arg-locs))
659 ,@(unless variable '(args)))
661 (:temporary (:sc descriptor-reg
664 ,@(unless (eq return :fixed)
668 (:temporary (:sc descriptor-reg
670 :from (:argument ,(if (eq return :tail) 2 1))
675 `((:temporary (:sc descriptor-reg :offset fdefn-offset
676 :from (:argument ,(if (eq return :tail) 0 1))
680 `((:temporary (:sc descriptor-reg :offset lexenv-offset
681 :from (:argument ,(if (eq return :tail) 0 1))
684 (:temporary (:scs (descriptor-reg) :from (:argument 0) :to :eval)
687 (:temporary (:sc any-reg :offset nargs-offset :to :eval)
691 (mapcar #'(lambda (name offset)
692 `(:temporary (:sc descriptor-reg
696 register-arg-names *register-arg-offsets*))
697 ,@(when (eq return :fixed)
698 '((:temporary (:scs (descriptor-reg) :from :eval) move-temp)))
700 (:temporary (:scs (descriptor-reg) :to :eval) stepping)
702 ,@(unless (eq return :tail)
703 '((:temporary (:scs (non-descriptor-reg)) temp)
704 (:temporary (:sc control-stack :offset nfp-save-offset) nfp-save)))
706 (:temporary (:sc interior-reg :offset lip-offset) entry-point)
708 (:generator ,(+ (if named 5 0)
710 (if (eq return :tail) 0 10)
712 (if (eq return :unknown) 25 0))
713 (let* ((cur-nfp (current-nfp-tn vop))
714 ,@(unless (eq return :tail)
715 '((lra-label (gen-label))))
716 (step-done-label (gen-label))
720 ,@(if (eq return :tail)
721 '((unless (location= ocfp ocfp-pass)
723 (unless (location= return-pc
733 (flet ((do-next-filler ()
734 (let* ((next (pop filler))
735 (what (if (consp next) (car next) next)))
739 `((inst subu nargs-pass csp-tn new-fp)
741 (mapcar #'(lambda (name)
742 `(inst lw ,name new-fp
745 register-arg-names)))
746 '((inst li nargs-pass (fixnumize nargs)))))
747 ,@(if (eq return :tail)
751 (move ocfp-pass ocfp t))
753 (inst lw ocfp-pass cfp-tn
754 (ash (tn-offset ocfp)
759 (move return-pc-pass return-pc t))
761 (inst lw return-pc-pass cfp-tn
762 (ash (tn-offset return-pc)
765 (inst addu nsp-tn cur-nfp
766 (bytes-needed-for-non-descriptor-stack-frame))))
768 (inst compute-lra-from-code
769 return-pc-pass code-tn lra-label temp))
771 (store-stack-tn nfp-save cur-nfp))
773 (move ocfp-pass cfp-tn t))
776 '(move cfp-tn new-fp)
777 '(if (> nargs register-arg-count)
779 (move cfp-tn csp-tn)))
780 (trace-table-entry trace-table-call-site))))
783 (insert-step-instrumenting (callable-tn)
784 ;; Conditionally insert a conditional trap:
785 (when step-instrumenting
786 ;; Get the symbol-value of SB!IMPL::*STEPPING*
787 (inst lw stepping null-tn
788 (- (+ symbol-value-slot
789 (truncate (static-symbol-offset 'sb!impl::*stepping*)
791 other-pointer-lowtag))
792 ;; If it's not NIL, trap.
793 (inst beq stepping null-tn step-done-label)
795 ;; CONTEXT-PC will be pointing here when the
796 ;; interrupt is handled, not after the BREAK.
797 (note-this-location vop :step-before-vop)
798 ;; Construct a trap code with the low bits from
799 ;; SINGLE-STEP-AROUND-TRAP and the high bits from
800 ;; the register number of CALLABLE-TN.
801 (inst break 0 (logior single-step-around-trap
802 (ash (reg-tn-encoding callable-tn)
804 (emit-label step-done-label))))
808 (descriptor-reg (move name-pass name))
810 (inst lw name-pass cfp-tn
811 (ash (tn-offset name) word-shift))
814 (inst lw name-pass code-tn
815 (- (ash (tn-offset name) word-shift)
816 other-pointer-lowtag))
818 ;; The step instrumenting must be done after
819 ;; FUNCTION is loaded, but before ENTRY-POINT is
821 (insert-step-instrumenting name-pass)
822 (inst lw entry-point name-pass
823 (- (ash fdefn-raw-addr-slot word-shift)
824 other-pointer-lowtag))
827 (descriptor-reg (move lexenv arg-fun))
829 (inst lw lexenv cfp-tn
830 (ash (tn-offset arg-fun) word-shift))
833 (inst lw lexenv code-tn
834 (- (ash (tn-offset arg-fun) word-shift)
835 other-pointer-lowtag))
837 (inst lw function lexenv
838 (- (ash closure-fun-slot word-shift)
841 ;; The step instrumenting must be done before
842 ;; after FUNCTION is loaded, but before ENTRY-POINT
844 (insert-step-instrumenting function)
845 (inst addu entry-point function
846 (- (ash simple-fun-code-offset word-shift)
847 fun-pointer-lowtag))))
854 (note-this-location vop :call-site)
860 '((trace-table-entry trace-table-normal)
861 (emit-return-pc lra-label)
862 (default-unknown-values vop values nvals
863 move-temp temp lra-label)
865 (load-stack-tn cur-nfp nfp-save))))
867 '((trace-table-entry trace-table-normal)
868 (emit-return-pc lra-label)
869 (note-this-location vop :unknown-return)
870 (receive-unknown-values values-start nvals start count
873 (load-stack-tn cur-nfp nfp-save))))
877 (define-full-call call nil :fixed nil)
878 (define-full-call call-named t :fixed nil)
879 (define-full-call multiple-call nil :unknown nil)
880 (define-full-call multiple-call-named t :unknown nil)
881 (define-full-call tail-call nil :tail nil)
882 (define-full-call tail-call-named t :tail nil)
884 (define-full-call call-variable nil :fixed t)
885 (define-full-call multiple-call-variable nil :unknown t)
888 ;;; Defined separately, since needs special code that BLT's the arguments
891 (define-vop (tail-call-variable)
893 (args-arg :scs (any-reg) :target args)
894 (function-arg :scs (descriptor-reg) :target lexenv)
895 (ocfp-arg :scs (any-reg) :target ocfp)
896 (lra-arg :scs (descriptor-reg) :target lra))
898 (:temporary (:sc any-reg :offset nl0-offset :from (:argument 0)) args)
899 (:temporary (:sc any-reg :offset lexenv-offset :from (:argument 1)) lexenv)
900 (:temporary (:sc any-reg :offset ocfp-offset :from (:argument 2)) ocfp)
901 (:temporary (:sc any-reg :offset lra-offset :from (:argument 3)) lra)
907 ;; Move these into the passing locations if they are not already there.
909 (move lexenv function-arg)
913 ;; Clear the number stack if anything is there and jump to the
914 ;; assembly-routine that does the bliting.
915 (inst j (make-fixup 'tail-call-variable :assembly-routine))
916 (let ((cur-nfp (current-nfp-tn vop)))
918 (inst addu nsp-tn cur-nfp
919 (bytes-needed-for-non-descriptor-stack-frame))
923 ;;;; Unknown values return:
925 ;;; Return a single value using the unknown-values convention.
927 (define-vop (return-single)
928 (:args (ocfp :scs (any-reg))
929 (return-pc :scs (descriptor-reg))
932 (:temporary (:scs (interior-reg)) lip)
935 ;; Clear the number stack.
936 (trace-table-entry trace-table-fun-epilogue)
937 (let ((cur-nfp (current-nfp-tn vop)))
939 (inst addu nsp-tn cur-nfp
940 (bytes-needed-for-non-descriptor-stack-frame))))
941 ;; Clear the control stack, and restore the frame pointer.
945 (lisp-return return-pc lip :offset 2)
946 (trace-table-entry trace-table-normal)))
949 ;;; Do unknown-values return of a fixed number of values. The Values are
950 ;;; required to be set up in the standard passing locations. Nvals is the
951 ;;; number of values returned.
953 ;;; If returning a single value, then deallocate the current frame, restore
954 ;;; FP and jump to the single-value entry at Return-PC + 8.
956 ;;; If returning other than one value, then load the number of values returned,
957 ;;; NIL out unsupplied values registers, restore FP and return at Return-PC.
958 ;;; When there are stack values, we must initialize the argument pointer to
959 ;;; point to the beginning of the values block (which is the beginning of the
963 (:args (ocfp :scs (any-reg))
964 (return-pc :scs (descriptor-reg) :to (:eval 1))
968 (:temporary (:sc descriptor-reg :offset a0-offset :from (:eval 0)) a0)
969 (:temporary (:sc descriptor-reg :offset a1-offset :from (:eval 0)) a1)
970 (:temporary (:sc descriptor-reg :offset a2-offset :from (:eval 0)) a2)
971 (:temporary (:sc descriptor-reg :offset a3-offset :from (:eval 0)) a3)
972 (:temporary (:sc descriptor-reg :offset a4-offset :from (:eval 0)) a4)
973 (:temporary (:sc descriptor-reg :offset a5-offset :from (:eval 0)) a5)
974 (:temporary (:sc any-reg :offset nargs-offset) nargs)
975 (:temporary (:sc any-reg :offset ocfp-offset) val-ptr)
976 (:temporary (:scs (interior-reg)) lip)
979 ;; Clear the number stack.
980 (trace-table-entry trace-table-fun-epilogue)
981 (let ((cur-nfp (current-nfp-tn vop)))
983 (inst addu nsp-tn cur-nfp
984 (bytes-needed-for-non-descriptor-stack-frame))))
986 ;; Clear the control stack, and restore the frame pointer.
990 (lisp-return return-pc lip :offset 2))
992 ;; Establish the values pointer and values count.
993 (move val-ptr cfp-tn)
994 (inst li nargs (fixnumize nvals))
995 ;; restore the frame pointer and clear as much of the control
996 ;; stack as possible.
998 (inst addu csp-tn val-ptr (* nvals n-word-bytes))
999 ;; pre-default any argument register that need it.
1000 (when (< nvals register-arg-count)
1001 (dolist (reg (subseq (list a0 a1 a2 a3 a4 a5) nvals))
1002 (move reg null-tn)))
1004 (lisp-return return-pc lip)))
1005 (trace-table-entry trace-table-normal)))
1007 ;;; Do unknown-values return of an arbitrary number of values (passed on the
1008 ;;; stack.) We check for the common case of a single return value, and do that
1009 ;;; inline using the normal single value return convention. Otherwise, we
1010 ;;; branch off to code that calls an assembly-routine.
1012 (define-vop (return-multiple)
1013 (:args (ocfp-arg :scs (any-reg) :target ocfp)
1014 (lra-arg :scs (descriptor-reg) :target lra)
1015 (vals-arg :scs (any-reg) :target vals)
1016 (nvals-arg :scs (any-reg) :target nvals))
1018 (:temporary (:sc any-reg :offset nl1-offset :from (:argument 0)) ocfp)
1019 (:temporary (:sc descriptor-reg :offset lra-offset :from (:argument 1)) lra)
1020 (:temporary (:sc any-reg :offset nl0-offset :from (:argument 2)) vals)
1021 (:temporary (:sc any-reg :offset nargs-offset :from (:argument 3)) nvals)
1022 (:temporary (:sc descriptor-reg :offset a0-offset) a0)
1023 (:temporary (:scs (interior-reg)) lip)
1028 (trace-table-entry trace-table-fun-epilogue)
1029 (let ((not-single (gen-label)))
1030 ;; Clear the number stack.
1031 (let ((cur-nfp (current-nfp-tn vop)))
1033 (inst addu nsp-tn cur-nfp
1034 (bytes-needed-for-non-descriptor-stack-frame))))
1036 ;; Check for the single case.
1037 (inst li a0 (fixnumize 1))
1038 (inst bne nvals-arg a0 not-single)
1039 (inst lw a0 vals-arg)
1041 ;; Return with one value.
1042 (move csp-tn cfp-tn)
1043 (move cfp-tn ocfp-arg)
1044 (lisp-return lra-arg lip :offset 2)
1046 ;; Nope, not the single case.
1047 (emit-label not-single)
1048 (move ocfp ocfp-arg)
1050 (move vals vals-arg)
1052 (inst j (make-fixup 'return-multiple :assembly-routine))
1053 (move nvals nvals-arg t))
1054 (trace-table-entry trace-table-normal)))
1061 ;;; We don't need to do anything special for regular functions.
1063 (define-vop (setup-environment)
1067 ;; Don't bother doing anything.
1070 ;;; Get the lexical environment from its passing location.
1072 (define-vop (setup-closure-environment)
1073 (:temporary (:sc descriptor-reg :offset lexenv-offset :target closure
1076 (:results (closure :scs (descriptor-reg)))
1081 (move closure lexenv)))
1083 ;;; Copy a more arg from the argument area to the end of the current frame.
1084 ;;; Fixed is the number of non-more arguments.
1086 (define-vop (copy-more-arg)
1087 (:temporary (:sc any-reg :offset nl0-offset) result)
1088 (:temporary (:sc any-reg :offset nl1-offset) count)
1089 (:temporary (:sc any-reg :offset nl2-offset) src)
1090 (:temporary (:sc any-reg :offset nl3-offset) dst)
1091 (:temporary (:sc descriptor-reg :offset l0-offset) temp)
1094 (let ((loop (gen-label))
1095 (do-regs (gen-label))
1097 (when (< fixed register-arg-count)
1098 ;; Save a pointer to the results so we can fill in register args.
1099 ;; We don't need this if there are more fixed args than reg args.
1100 (move result csp-tn))
1101 ;; Allocate the space on the stack.
1102 (cond ((zerop fixed)
1103 (inst beq nargs-tn done)
1104 (inst addu csp-tn csp-tn nargs-tn))
1106 (inst addu count nargs-tn (fixnumize (- fixed)))
1107 (inst blez count done)
1109 (inst addu csp-tn csp-tn count)))
1110 (when (< fixed register-arg-count)
1111 ;; We must stop when we run out of stack args, not when we run out of
1113 (inst addu count nargs-tn (fixnumize (- register-arg-count))))
1114 ;; Everything of interest in registers.
1115 (inst blez count do-regs)
1116 ;; Initialize dst to be end of stack.
1118 ;; Initialize src to be end of args.
1119 (inst addu src cfp-tn nargs-tn)
1122 ;; *--dst = *--src, --count
1123 (inst addu src src (- n-word-bytes))
1124 (inst addu count count (fixnumize -1))
1126 (inst addu dst dst (- n-word-bytes))
1127 (inst bgtz count loop)
1130 (emit-label do-regs)
1131 (when (< fixed register-arg-count)
1132 ;; Now we have to deposit any more args that showed up in registers.
1133 ;; We know there is at least one more arg, otherwise we would have
1134 ;; branched to done up at the top.
1135 (inst subu count nargs-tn (fixnumize (1+ fixed)))
1136 (do ((i fixed (1+ i)))
1137 ((>= i register-arg-count))
1138 ;; Is this the last one?
1139 (inst beq count done)
1140 ;; Store it relative to the pointer saved at the start.
1141 (storew (nth i *register-arg-tns*) result (- i fixed))
1143 (inst subu count (fixnumize 1))))
1144 (emit-label done))))
1147 ;;; More args are stored consecutively on the stack, starting
1148 ;;; immediately at the context pointer. The context pointer is not
1149 ;;; typed, so the lowtag is 0.
1150 (define-full-reffer more-arg * 0 0 (descriptor-reg any-reg) * %more-arg)
1152 ;;; Turn more arg (context, count) into a list.
1153 (defoptimizer (%listify-rest-args stack-allocate-result) ((&rest args))
1156 (define-vop (listify-rest-args)
1157 (:args (context-arg :target context :scs (descriptor-reg))
1158 (count-arg :target count :scs (any-reg)))
1159 (:arg-types * tagged-num)
1160 (:temporary (:scs (any-reg) :from (:argument 0)) context)
1161 (:temporary (:scs (any-reg) :from (:argument 1)) count)
1162 (:temporary (:scs (descriptor-reg) :from :eval) temp dst)
1163 (:temporary (:sc non-descriptor-reg :offset nl4-offset) pa-flag)
1164 (:results (result :scs (descriptor-reg)))
1165 (:translate %listify-rest-args)
1169 (let* ((enter (gen-label))
1172 (dx-p (node-stack-allocate-p node))
1173 (alloc-area-tn (if dx-p csp-tn alloc-tn)))
1174 (move context context-arg)
1175 (move count count-arg)
1176 ;; Check to see if there are any arguments.
1177 (inst beq count zero-tn done)
1178 (move result null-tn t)
1180 ;; We need to do this atomically.
1181 (pseudo-atomic (pa-flag)
1184 ;; Allocate a cons (2 words) for each item.
1185 (inst srl result alloc-area-tn n-lowtag-bits)
1186 (inst sll result n-lowtag-bits)
1187 (inst or result list-pointer-lowtag)
1189 (inst sll temp count 1)
1191 (inst addu alloc-area-tn temp)
1193 ;; Store the current cons in the cdr of the previous cons.
1195 (inst addu dst dst (* 2 n-word-bytes))
1196 (storew dst dst -1 list-pointer-lowtag)
1200 (loadw temp context)
1201 (inst addu context n-word-bytes)
1203 ;; Dec count, and if != zero, go back for more.
1204 (inst addu count count (fixnumize -1))
1205 (inst bne count zero-tn loop)
1207 ;; Store the value in the car (in delay slot)
1208 (storew temp dst 0 list-pointer-lowtag)
1210 ;; NIL out the last cons.
1211 (storew null-tn dst 1 list-pointer-lowtag))
1212 (emit-label done))))
1214 ;;; Return the location and size of the more arg glob created by Copy-More-Arg.
1215 ;;; Supplied is the total number of arguments supplied (originally passed in
1216 ;;; NARGS.) Fixed is the number of non-rest arguments.
1218 ;;; We must duplicate some of the work done by Copy-More-Arg, since at that
1219 ;;; time the environment is in a pretty brain-damaged state, preventing this
1220 ;;; info from being returned as values. What we do is compute
1221 ;;; supplied - fixed, and return a pointer that many words below the current
1224 (define-vop (more-arg-context)
1225 (:policy :fast-safe)
1226 (:translate sb!c::%more-arg-context)
1227 (:args (supplied :scs (any-reg)))
1228 (:arg-types tagged-num (:constant fixnum))
1230 (:results (context :scs (descriptor-reg))
1231 (count :scs (any-reg)))
1232 (:result-types t tagged-num)
1233 (:note "more-arg-context")
1235 (inst addu count supplied (fixnumize (- fixed)))
1236 (inst subu context csp-tn count)))
1239 ;;; Signal wrong argument count error if Nargs isn't = to Count.
1241 (define-vop (verify-arg-count)
1242 (:policy :fast-safe)
1243 (:translate sb!c::%verify-arg-count)
1244 (:args (nargs :scs (any-reg)))
1245 (:arg-types positive-fixnum (:constant t))
1246 (:temporary (:scs (any-reg) :type fixnum) temp)
1249 (:save-p :compute-only)
1252 (generate-error-code vop invalid-arg-count-error nargs)))
1253 (cond ((zerop count)
1254 (inst bne nargs zero-tn err-lab)
1257 (inst li temp (fixnumize count))
1258 (inst bne nargs temp err-lab)
1261 ;;; Various other error signalers.
1263 (macrolet ((frob (name error translate &rest args)
1264 `(define-vop (,name)
1266 `((:policy :fast-safe)
1267 (:translate ,translate)))
1268 (:args ,@(mapcar #'(lambda (arg)
1269 `(,arg :scs (any-reg descriptor-reg)))
1272 (:save-p :compute-only)
1274 (error-call vop ,error ,@args)))))
1275 (frob arg-count-error invalid-arg-count-error
1276 sb!c::%arg-count-error nargs)
1277 (frob type-check-error object-not-type-error sb!c::%type-check-error
1279 (frob layout-invalid-error layout-invalid-error sb!c::%layout-invalid-error
1281 (frob odd-key-args-error odd-key-args-error
1282 sb!c::%odd-key-args-error)
1283 (frob unknown-key-arg-error unknown-key-arg-error
1284 sb!c::%unknown-key-arg-error key)
1285 (frob nil-fun-returned-error nil-fun-returned-error nil fun))
1289 (define-vop (step-instrument-before-vop)
1290 (:temporary (:scs (descriptor-reg)) stepping)
1291 (:policy :fast-safe)
1294 ;; Get the symbol-value of SB!IMPL::*STEPPING*
1295 (inst lw stepping null-tn
1296 (- (+ symbol-value-slot
1297 (truncate (static-symbol-offset 'sb!impl::*stepping*)
1299 other-pointer-lowtag))
1300 ;; If it's not NIL, trap.
1301 (inst beq stepping null-tn DONE)
1303 ;; CONTEXT-PC will be pointing here when the interrupt is handled,
1304 ;; not after the BREAK.
1305 (note-this-location vop :step-before-vop)
1306 ;; CALLEE-REGISTER-OFFSET isn't needed for before-traps, so we
1307 ;; can just use a bare SINGLE-STEP-BEFORE-TRAP as the code.
1308 (inst break 0 single-step-before-trap)