\f
;;;; conflict determination
-;;; Return true if the element at the specified offset in SB has a conflict
-;;; with TN:
-;;; -- If an component-live TN (:component kind), then iterate over all the
-;;; blocks. If the element at Offset is used anywhere in any of the
-;;; component's blocks (always-live /= 0), then there is a conflict.
-;;; -- If TN is global (Confs true), then iterate over the blocks TN is live in
-;;; (using TN-Global-Conflicts). If the TN is live everywhere in the block
-;;; (:Live), then there is a conflict if the element at offset is used
-;;; anywhere in the block (Always-Live /= 0). Otherwise, we use the local
-;;; TN number for TN in block to find whether TN has a conflict at Offset in
+;;; Return true if the element at the specified offset in SB has a
+;;; conflict with TN:
+;;; -- If a component-live TN (:COMPONENT kind), then iterate over
+;;; all the blocks. If the element at OFFSET is used anywhere in
+;;; any of the component's blocks (always-live /= 0), then there
+;;; is a conflict.
+;;; -- If TN is global (Confs true), then iterate over the blocks TN
+;;; is live in (using TN-GLOBAL-CONFLICTS). If the TN is live
+;;; everywhere in the block (:LIVE), then there is a conflict
+;;; if the element at offset is used anywhere in the block
+;;; (Always-Live /= 0). Otherwise, we use the local TN number for
+;;; TN in block to find whether TN has a conflict at Offset in
;;; that block.
-;;; -- If TN is local, then we just check for a conflict in the block it is
-;;; local to.
+;;; -- If TN is local, then we just check for a conflict in the block
+;;; it is local to.
(defun offset-conflicts-in-sb (tn sb offset)
(declare (type tn tn) (type finite-sb sb) (type index offset))
(let ((confs (tn-global-conflicts tn))
(confs
(let ((loc-confs (svref (finite-sb-conflicts sb) offset))
(loc-live (svref (finite-sb-always-live sb) offset)))
- (do ((conf confs (global-conflicts-tn-next conf)))
+ (do ((conf confs (global-conflicts-next-tnwise conf)))
((null conf)
nil)
(let* ((block (global-conflicts-block conf))
(when (offset-conflicts-in-sb tn sb (+ offset i))
(return t)))))
-;;; Add TN's conflicts into the conflicts for the location at Offset in SC.
-;;; We iterate over each location in TN, adding to the conflicts for that
-;;; location:
-;;; -- If TN is a :Component TN, then iterate over all the blocks, setting
-;;; all of the local conflict bits and the always-live bit. This records a
-;;; conflict with any TN that has a LTN number in the block, as well as with
-;;; :Always-Live and :Environment TNs.
+;;; Add TN's conflicts into the conflicts for the location at OFFSET
+;;; in SC. We iterate over each location in TN, adding to the
+;;; conflicts for that location:
+;;; -- If TN is a :COMPONENT TN, then iterate over all the blocks,
+;;; setting all of the local conflict bits and the always-live bit.
+;;; This records a conflict with any TN that has a LTN number in
+;;; the block, as well as with :ALWAYS-LIVE and :ENVIRONMENT TNs.
;;; -- If TN is global, then iterate over the blocks TN is live in. In
-;;; addition to setting the always-live bit to represent the conflict with
-;;; TNs live throughout the block, we also set bits in the local conflicts.
-;;; If TN is :Always-Live in the block, we set all the bits, otherwise we or
-;;; in the local conflict bits.
-;;; -- If the TN is local, then we just do the block it is local to, setting
-;;; always-live and OR'ing in the local conflicts.
+;;; addition to setting the always-live bit to represent the conflict
+;;; with TNs live throughout the block, we also set bits in the
+;;; local conflicts. If TN is :ALWAYS-LIVE in the block, we set all
+;;; the bits, otherwise we OR in the local conflict bits.
+;;; -- If the TN is local, then we just do the block it is local to,
+;;; setting always-live and OR'ing in the local conflicts.
(defun add-location-conflicts (tn sc offset)
(declare (type tn tn) (type sc sc) (type index offset))
(let ((confs (tn-global-conflicts tn))
(loc-live (svref (finite-sb-always-live sb) this-offset)))
(cond
((eq kind :component)
- (dotimes (num (ir2-block-count *component-being-compiled*) nil)
+ (dotimes (num (ir2-block-count *component-being-compiled*))
(declare (type index num))
(setf (sbit loc-live num) 1)
(set-bit-vector (svref loc-confs num))))
(confs
- (do ((conf confs (global-conflicts-tn-next conf)))
+ (do ((conf confs (global-conflicts-next-tnwise conf)))
((null conf))
(let* ((block (global-conflicts-block conf))
(num (ir2-block-number block))
(bit-ior (the local-tn-bit-vector (svref loc-confs num))
(tn-local-conflicts tn) t))))))))
-;;; Return the total number of IR2 blocks in Component.
+;;; Return the total number of IR2-BLOCKs in COMPONENT.
(defun ir2-block-count (component)
(declare (type component component))
(do ((2block (block-info (block-next (component-head component)))
(when (ir2-block-number 2block)
(return (1+ (ir2-block-number 2block))))))
-;;; Ensure that the conflicts vectors for each :Finite SB are large enough
-;;; for the number of blocks allocated. Also clear any old conflicts and reset
-;;; the current size to the initial size.
+;;; Ensure that the conflicts vectors for each :FINITE SB are large
+;;; enough for the number of blocks allocated. Also clear any old
+;;; conflicts and reset the current size to the initial size.
(defun init-sb-vectors (component)
(let ((nblocks (ir2-block-count component)))
(dolist (sb *backend-sb-list*)
(setf (finite-sb-current-size sb) (sb-size sb))
(setf (finite-sb-last-offset sb) 0))))))
-;;; Expand the :Unbounded SB backing SC by either the initial size or the SC
-;;; element size, whichever is larger. If Needed-Size is larger, then use that
-;;; size.
+;;; Expand the :UNBOUNDED SB backing SC by either the initial size or
+;;; the SC element size, whichever is larger. If NEEDED-SIZE is
+;;; larger, then use that size.
(defun grow-sc (sc &optional (needed-size 0))
(declare (type sc sc) (type index needed-size))
(let* ((sb (sc-sb sc))
(ir2-block-count *component-being-compiled*)
(length (the simple-vector (svref conflicts 0))))))
(declare (type index inc new-size))
- (assert (eq (sb-kind sb) :unbounded))
+ (aver (eq (sb-kind sb) :unbounded))
(when (> new-size (length conflicts))
(let ((new-conf (make-array new-size)))
(defvar *in-pack* nil)
;;; In order to prevent the conflict data structures from growing
-;;; arbitrarily large, we clear them whenever a GC happens and we aren't
-;;; currently in pack. We revert to the initial number of locations and 0
-;;; blocks.
+;;; arbitrarily large, we clear them whenever a GC happens and we
+;;; aren't currently in pack. We revert to the initial number of
+;;; locations and 0 blocks.
(defun pack-before-gc-hook ()
(unless *in-pack*
(dolist (sb *backend-sb-list*)
(unless (eq (sb-kind sb) :non-packed)
(let ((size (sb-size sb)))
- (fill nil (finite-sb-always-live sb))
+ (fill (finite-sb-always-live sb) nil)
(setf (finite-sb-always-live sb)
(make-array size
:initial-element
#-sb-xc #*
- ;; The cross-compiler isn't very good at dumping
- ;; specialized arrays, so we delay construction of
- ;; this SIMPLE-BIT-VECTOR until runtime.
+ ;; The cross-compiler isn't very good at
+ ;; dumping specialized arrays, so we delay
+ ;; construction of this SIMPLE-BIT-VECTOR
+ ;; until runtime.
#+sb-xc (make-array 0 :element-type 'bit)))
- (fill nil (finite-sb-conflicts sb))
+ (fill (finite-sb-conflicts sb) nil)
(setf (finite-sb-conflicts sb)
(make-array size :initial-element '#()))
- (fill nil (finite-sb-live-tns sb))
+ (fill (finite-sb-live-tns sb) nil)
(setf (finite-sb-live-tns sb)
(make-array size :initial-element nil))))))
(values))
\f
;;;; internal errors
-;;; Give someone a hard time because there isn't any load function defined
-;;; to move from Src to Dest.
-(defun no-load-function-error (src dest)
+;;; Give someone a hard time because there isn't any load function
+;;; defined to move from SRC to DEST.
+(defun no-load-fun-error (src dest)
(let* ((src-sc (tn-sc src))
(src-name (sc-name src-sc))
(dest-sc (tn-sc dest))
(error "loading to/from SCs that aren't alternates?~@
VM definition is inconsistent, try recompiling.")))))
-;;; Called when we failed to pack TN. If Restricted is true, then we we
-;;; restricted to pack TN in its SC.
+;;; Called when we failed to pack TN. If RESTRICTED is true, then we
+;;; are restricted to pack TN in its SC.
(defun failed-to-pack-error (tn restricted)
(declare (type tn tn))
(let* ((sc (tn-sc tn))
(scs (cons sc (sc-alternate-scs sc))))
(cond
(restricted
- (error "Failed to pack restricted TN ~S in its SC ~S."
+ (error "failed to pack restricted TN ~S in its SC ~S"
tn (sc-name sc)))
(t
- (assert (not (find :unbounded scs
- :key #'(lambda (x) (sb-kind (sc-sb x))))))
+ (aver (not (find :unbounded scs
+ :key (lambda (x) (sb-kind (sc-sb x))))))
(let ((ptype (tn-primitive-type tn)))
(cond
(ptype
- (assert (member (sc-number sc) (primitive-type-scs ptype)))
- (error "SC ~S doesn't have any :Unbounded alternate SCs, but is~@
+ (aver (member (sc-number sc) (primitive-type-scs ptype)))
+ (error "SC ~S doesn't have any :UNBOUNDED alternate SCs, but is~@
a SC for primitive-type ~S."
(sc-name sc) (primitive-type-name ptype)))
(t
- (error "SC ~S doesn't have any :Unbounded alternate SCs."
+ (error "SC ~S doesn't have any :UNBOUNDED alternate SCs."
(sc-name sc)))))))))
-;;; Return a list of format arguments describing how TN is used in Op's VOP.
+;;; Return a list of format arguments describing how TN is used in
+;;; OP's VOP.
(defun describe-tn-use (loc tn op)
(let* ((vop (tn-ref-vop op))
(args (vop-args vop))
(results (vop-results vop))
(name (with-output-to-string (stream)
- (print-tn tn stream)))
+ (print-tn-guts tn stream)))
(2comp (component-info *component-being-compiled*))
temp)
(cond
(t
`("~2D: not referenced?" ,loc)))))
-;;; If load TN packing fails, try to give a helpful error message. We find
-;;; a TN in each location that conflicts, and print it.
+;;; If load TN packing fails, try to give a helpful error message. We
+;;; find a TN in each location that conflicts, and print it.
(defun failed-to-pack-load-tn-error (scs op)
(declare (list scs) (type tn-ref op))
(collect ((used)
(dolist (sc scs)
(let* ((sb (sc-sb sc))
(confs (finite-sb-live-tns sb)))
- (assert (eq (sb-kind sb) :finite))
+ (aver (eq (sb-kind sb) :finite))
(dolist (el (sc-locations sc))
(declare (type index el))
(let ((conf (load-tn-conflicts-in-sc op sc el t)))
(multiple-value-bind (arg-p n more-p costs load-scs incon)
(get-operand-info op)
(declare (ignore costs load-scs))
- (assert (not more-p))
- (error "Unable to pack a Load-TN in SC ~{~A~#[~^~;, or ~:;,~]~} ~
+ (aver (not more-p))
+ (error "unable to pack a Load-TN in SC ~{~A~#[~^~;, or ~:;,~]~} ~
for the ~:R ~:[result~;argument~] to~@
the ~S VOP,~@
~:[since all SC elements are in use:~:{~%~@?~}~%~;~
(unused) (used)
incon))))
-;;; Called when none of the SCs that we can load Op into are allowed by Op's
-;;; primitive-type.
+;;; This is called when none of the SCs that we can load OP into are
+;;; allowed by OP's primitive-type.
(defun no-load-scs-allowed-by-primitive-type-error (ref)
(declare (type tn-ref ref))
(let* ((tn (tn-ref-tn ref))
(multiple-value-bind (arg-p pos more-p costs load-scs incon)
(get-operand-info ref)
(declare (ignore costs))
- (assert (not more-p))
+ (aver (not more-p))
(error "~S is not valid as the ~:R ~:[result~;argument~] to VOP:~
~% ~S,~@
since the TN's primitive type ~S doesn't allow any of the SCs~@
(pushnew tn (gethash vop (ir2-component-spilled-vops 2comp)))))
(values))
-;;; Make a save TN for TN, pack it, and return it. We copy various conflict
-;;; information from the TN so that pack does the right thing.
+;;; Make a save TN for TN, pack it, and return it. We copy various
+;;; conflict information from the TN so that pack does the right
+;;; thing.
(defun pack-save-tn (tn)
(declare (type tn tn))
(let ((res (make-tn 0 :save nil nil)))
(dolist (alt (sc-alternate-scs (tn-sc tn))
- (error "No unbounded alternate for SC ~S."
+ (error "no unbounded alternate for SC ~S"
(sc-name (tn-sc tn))))
(when (eq (sb-kind (sc-sb alt)) :unbounded)
(setf (tn-save-tn tn) res)
(pack-tn res t)
(return res)))))
-;;; Find the load function for moving from Src to Dest and emit a
+;;; Find the load function for moving from SRC to DEST and emit a
;;; MOVE-OPERAND VOP with that function as its info arg.
(defun emit-operand-load (node block src dest before)
(declare (type node node) (type ir2-block block)
(emit-load-template node block
(template-or-lose 'move-operand)
src dest
- (list (or (svref (sc-move-functions (tn-sc dest))
+ (list (or (svref (sc-move-funs (tn-sc dest))
(sc-number (tn-sc src)))
- (no-load-function-error src dest)))
+ (no-load-fun-error src dest)))
before)
(values))
-;;; Find the preceding use of the VOP NAME in the emit order, starting with
-;;; VOP. We must find the VOP in the same IR1 block.
+;;; Find the preceding use of the VOP NAME in the emit order, starting
+;;; with VOP. We must find the VOP in the same IR1 block.
(defun reverse-find-vop (name vop)
(do* ((block (vop-block vop) (ir2-block-prev block))
(last vop (ir2-block-last-vop block)))
(nil)
- (assert (eq (ir2-block-block block) (ir2-block-block (vop-block vop))))
+ (aver (eq (ir2-block-block block) (ir2-block-block (vop-block vop))))
(do ((current last (vop-prev current)))
((null current))
(when (eq (vop-info-name (vop-info current)) name)
(return-from reverse-find-vop current)))))
-;;; For TNs that have other than one writer, we save the TN before each
-;;; call. If a local call (MOVE-ARGS is :LOCAL-CALL), then we scan back for
-;;; the ALLOCATE-FRAME VOP, and emit the save there. This is necessary because
-;;; in a self-recursive local call, the registers holding the current arguments
-;;; may get trashed by setting up the call arguments. The ALLOCATE-FRAME VOP
-;;; marks a place at which the values are known to be good.
+;;; For TNs that have other than one writer, we save the TN before
+;;; each call. If a local call (MOVE-ARGS is :LOCAL-CALL), then we
+;;; scan back for the ALLOCATE-FRAME VOP, and emit the save there.
+;;; This is necessary because in a self-recursive local call, the
+;;; registers holding the current arguments may get trashed by setting
+;;; up the call arguments. The ALLOCATE-FRAME VOP marks a place at
+;;; which the values are known to be good.
(defun save-complex-writer-tn (tn vop)
(let ((save (or (tn-save-tn tn)
(pack-save-tn tn)))
(next (vop-next vop)))
(when (eq (tn-kind save) :specified-save)
(setf (tn-kind save) :save))
- (assert (eq (tn-kind save) :save))
+ (aver (eq (tn-kind save) :save))
(emit-operand-load node block tn save
(if (eq (vop-info-move-args (vop-info vop))
:local-call)
vop))
(emit-operand-load node block save tn next)))
-;;; Return a VOP after which is an o.k. place to save the value of TN. For
-;;; correctness, it is only required that this location be after any possible
-;;; write and before any possible restore location.
+;;; Return a VOP after which is an OK place to save the value of TN.
+;;; For correctness, it is only required that this location be after
+;;; any possible write and before any possible restore location.
;;;
-;;; In practice, we return the unique writer VOP, but give up if the TN is
-;;; ever read by a VOP with MOVE-ARGS :LOCAL-CALL. This prevents us from being
-;;; confused by non-tail local calls.
+;;; In practice, we return the unique writer VOP, but give up if the
+;;; TN is ever read by a VOP with MOVE-ARGS :LOCAL-CALL. This prevents
+;;; us from being confused by non-tail local calls.
;;;
-;;; When looking for writes, we have to ignore uses of MOVE-OPERAND, since they
-;;; will correspond to restores that we have already done.
+;;; When looking for writes, we have to ignore uses of MOVE-OPERAND,
+;;; since they will correspond to restores that we have already done.
(defun find-single-writer (tn)
(declare (type tn tn))
(do ((write (tn-writes tn) (tn-ref-next write))
(when res (return nil))
(setq res write))))
-;;; Try to save TN at a single location. If we succeed, return T, otherwise
-;;; NIL.
+;;; Try to save TN at a single location. If we succeed, return T,
+;;; otherwise NIL.
(defun save-single-writer-tn (tn)
(declare (type tn tn))
(let* ((old-save (tn-save-tn tn))
(defun restore-single-writer-tn (tn vop)
(declare (type tn) (type vop vop))
(let ((save (tn-save-tn tn)))
- (assert (eq (tn-kind save) :save-once))
+ (aver (eq (tn-kind save) :save-once))
(emit-operand-load (vop-node vop) (vop-block vop) save tn (vop-next vop)))
(values))
(save-complex-writer-tn tn vop))))
(values))
-;;; Scan over the VOPs in Block, emiting saving code for TNs noted in the
-;;; codegen info that are packed into saved SCs.
+;;; Scan over the VOPs in BLOCK, emiting saving code for TNs noted in
+;;; the codegen info that are packed into saved SCs.
(defun emit-saves (block)
(declare (type ir2-block block))
(do ((vop (ir2-block-start-vop block) (vop-next vop)))
\f
;;;; optimized saving
-;;; Save TN if it isn't a single-writer TN that has already been saved. If
-;;; multi-write, we insert the save Before the specified VOP. Context is a VOP
-;;; used to tell which node/block to use for the new VOP.
+;;; Save TN if it isn't a single-writer TN that has already been
+;;; saved. If multi-write, we insert the save BEFORE the specified
+;;; VOP. CONTEXT is a VOP used to tell which node/block to use for the
+;;; new VOP.
(defun save-if-necessary (tn before context)
(declare (type tn tn) (type (or vop null) before) (type vop context))
(let ((save (tn-save-tn tn)))
(when (eq (tn-kind save) :specified-save)
(setf (tn-kind save) :save))
- (assert (member (tn-kind save) '(:save :save-once)))
+ (aver (member (tn-kind save) '(:save :save-once)))
(unless (eq (tn-kind save) :save-once)
(or (save-single-writer-tn tn)
(emit-operand-load (vop-node context) (vop-block context)
tn save before))))
(values))
-;;; Load the TN from its save location, allocating one if necessary. The
-;;; load is inserted Before the specifier VOP. Context is a VOP used to tell
-;;; which node/block to use for the new VOP.
+;;; Load the TN from its save location, allocating one if necessary.
+;;; The load is inserted BEFORE the specifier VOP. CONTEXT is a VOP
+;;; used to tell which node/block to use for the new VOP.
(defun restore-tn (tn before context)
(declare (type tn tn) (type (or vop null) before) (type vop context))
(let ((save (or (tn-save-tn tn) (pack-save-tn tn))))
) ; EVAL-WHEN
-;;; Start scanning backward at the end of Block, looking which TNs are live
-;;; and looking for places where we have to save. We manipulate two sets:
-;;; SAVES and RESTORES.
+;;; Start scanning backward at the end of BLOCK, looking which TNs are
+;;; live and looking for places where we have to save. We manipulate
+;;; two sets: SAVES and RESTORES.
;;;
-;;; SAVES is a set of all the TNs that have to be saved because they are
-;;; restored after some call. We normally delay saving until the beginning of
-;;; the block, but we must save immediately if we see a write of the saved TN.
-;;; We also immediately save all TNs and exit when we see a
-;;; NOTE-ENVIRONMENT-START VOP, since saves can't be done before the
-;;; environment is properly initialized.
+;;; SAVES is a set of all the TNs that have to be saved because they
+;;; are restored after some call. We normally delay saving until the
+;;; beginning of the block, but we must save immediately if we see a
+;;; write of the saved TN. We also immediately save all TNs and exit
+;;; when we see a NOTE-ENVIRONMENT-START VOP, since saves can't be
+;;; done before the environment is properly initialized.
;;;
-;;; RESTORES is a set of all the TNs read (and not written) between here and
-;;; the next call, i.e. the set of TNs that must be restored when we reach the
-;;; next (earlier) call VOP. Unlike SAVES, this set is cleared when we do
-;;; the restoring after a call. Any TNs that were in RESTORES are moved into
-;;; SAVES to ensure that they are saved at some point.
+;;; RESTORES is a set of all the TNs read (and not written) between
+;;; here and the next call, i.e. the set of TNs that must be restored
+;;; when we reach the next (earlier) call VOP. Unlike SAVES, this set
+;;; is cleared when we do the restoring after a call. Any TNs that
+;;; were in RESTORES are moved into SAVES to ensure that they are
+;;; saved at some point.
;;;
-;;; SAVES and RESTORES are represented using both a list and a bit-vector so
-;;; that we can quickly iterate and test for membership. The incoming Saves
-;;; and Restores args are used for computing these sets (the initial contents
-;;; are ignored.)
+;;; SAVES and RESTORES are represented using both a list and a
+;;; bit-vector so that we can quickly iterate and test for membership.
+;;; The incoming SAVES and RESTORES args are used for computing these
+;;; sets (the initial contents are ignored.)
;;;
-;;; When we hit a VOP with :COMPUTE-ONLY Save-P (an internal error
-;;; location), we pretend that all live TNs were read, unless (= speed 3), in
-;;; which case we mark all the TNs that are live but not restored as spilled.
+;;; When we hit a VOP with :COMPUTE-ONLY SAVE-P (an internal error
+;;; location), we pretend that all live TNs were read, unless (= speed
+;;; 3), in which case we mark all the TNs that are live but not
+;;; restored as spilled.
(defun optimized-emit-saves-block (block saves restores)
(declare (type ir2-block block) (type simple-bit-vector saves restores))
(let ((1block (ir2-block-block block))
(do ((block block (ir2-block-prev block))
(prev nil block))
((not (eq (ir2-block-block block) 1block))
- (assert (not skipping))
+ (aver (not skipping))
(dolist (save saves-list)
(let ((start (ir2-block-start-vop prev)))
(save-if-necessary save start start)))
(let ((info (vop-info vop)))
(case (vop-info-name info)
(allocate-frame
- (assert skipping)
+ (aver skipping)
(setq skipping nil))
(note-environment-start
- (assert (not skipping))
+ (aver (not skipping))
(dolist (save saves-list)
(save-if-necessary save (vop-next vop) vop))
(return-from optimized-emit-saves-block block)))
(do ((read (vop-args vop) (tn-ref-across read)))
((null read))
(save-note-read (tn-ref-tn read))))))))))
-
-;;; Like EMIT-SAVES, only different. We avoid redundant saving within the
-;;; block, and don't restore values that aren't used before the next call.
-;;; This function is just the top-level loop over the blocks in the component,
-;;; which locates blocks that need saving done.
+
+;;; This is like EMIT-SAVES, only different. We avoid redundant saving
+;;; within the block, and don't restore values that aren't used before
+;;; the next call. This function is just the top level loop over the
+;;; blocks in the component, which locates blocks that need saving
+;;; done.
(defun optimized-emit-saves (component)
(declare (type component component))
(let* ((gtn-count (1+ (ir2-component-global-tn-counter
(setq block (optimized-emit-saves-block block saves restores)))
(setq block (ir2-block-prev block)))))
-;;; Iterate over the normal TNs, finding the cost of packing on the stack in
-;;; units of the number of references. We count all references as +1, and
-;;; subtract out REGISTER-SAVE-PENALTY for each place where we would have to
-;;; save a register.
+;;; Iterate over the normal TNs, finding the cost of packing on the
+;;; stack in units of the number of references. We count all
+;;; references as +1, and subtract out REGISTER-SAVE-PENALTY for each
+;;; place where we would have to save a register.
(defun assign-tn-costs (component)
(do-ir2-blocks (block component)
(do ((vop (ir2-block-start-vop block) (vop-next vop)))
\f
;;;; load TN packing
-;;; These variables indicate the last location at which we computed the
-;;; Live-TNs. They hold the Block and VOP values that were passed to
-;;; Compute-Live-TNs.
+;;; These variables indicate the last location at which we computed
+;;; the Live-TNs. They hold the BLOCK and VOP values that were passed
+;;; to COMPUTE-LIVE-TNS.
(defvar *live-block*)
(defvar *live-vop*)
-;;; If we unpack some TNs, then we mark all affected blocks by sticking them in
-;;; this hash-table. This is initially null. We create the hashtable if we do
-;;; any unpacking.
+;;; If we unpack some TNs, then we mark all affected blocks by
+;;; sticking them in this hash-table. This is initially null. We
+;;; create the hashtable if we do any unpacking.
(defvar *repack-blocks*)
(declaim (type (or hash-table null) *repack-blocks*))
-;;; Set the Live-TNs vectors in all :Finite SBs to represent the TNs live at
-;;; the end of Block.
+;;; Set the LIVE-TNS vectors in all :FINITE SBs to represent the TNs
+;;; live at the end of BLOCK.
(defun init-live-tns (block)
(dolist (sb *backend-sb-list*)
(when (eq (sb-kind sb) :finite)
(values))
-;;; Set the Live-TNs in :Finite SBs to represent the TNs live immediately
-;;; after the evaluation of VOP in Block, excluding results of the VOP. If VOP
-;;; is null, then compute the live TNs at the beginning of the block.
-;;; Sequential calls on the same block must be in reverse VOP order.
+;;; Set the LIVE-TNs in :FINITE SBs to represent the TNs live
+;;; immediately after the evaluation of VOP in BLOCK, excluding
+;;; results of the VOP. If VOP is null, then compute the live TNs at
+;;; the beginning of the block. Sequential calls on the same block
+;;; must be in reverse VOP order.
(defun compute-live-tns (block vop)
(declare (type ir2-block block) (type vop vop))
(unless (eq block *live-block*)
(end (+ (tn-offset ltn) (sc-element-size sc))))
((= offset end))
(declare (type index offset end))
- (assert (null (svref tns offset)))))))))
+ (aver (null (svref tns offset)))))))))
(let* ((tn (tn-ref-tn ref))
(sc (tn-sc tn))
(if (tn-ref-write-p ref)
(setf (svref tns offset) nil)
(let ((old (svref tns offset)))
- (assert (or (null old) (eq old tn)) (old tn))
+ (aver (or (null old) (eq old tn)))
(setf (svref tns offset) tn)))))))))
(setq *live-vop* vop)
(values))
-;;; Kind of like Offset-Conflicts-In-SB, except that it uses the VOP refs to
-;;; determine whether a Load-TN for OP could be packed in the specified
-;;; location, disregarding conflicts with TNs not referenced by this VOP.
-;;; There is a conflict if either:
+;;; This is kind of like OFFSET-CONFLICTS-IN-SB, except that it uses
+;;; the VOP refs to determine whether a Load-TN for OP could be packed
+;;; in the specified location, disregarding conflicts with TNs not
+;;; referenced by this VOP. There is a conflict if either:
;;; 1. The reference is a result, and the same location is either:
;;; -- Used by some other result.
;;; -- Used in any way after the reference (exclusive).
;;; -- Used in any way before the reference (exclusive).
;;;
;;; In 1 (and 2) above, the first bullet corresponds to result-result
-;;; (and argument-argument) conflicts. We need this case because there aren't
-;;; any TN-REFs to represent the implicit reading of results or writing of
-;;; arguments.
+;;; (and argument-argument) conflicts. We need this case because there
+;;; aren't any TN-REFs to represent the implicit reading of results or
+;;; writing of arguments.
;;;
;;; The second bullet corresponds conflicts with temporaries or between
;;; arguments and results.
;;;
-;;; We consider both the TN-REF-TN and the TN-REF-LOAD-TN (if any) to be
-;;; referenced simultaneously and in the same way. This causes load-TNs to
-;;; appear live to the beginning (or end) of the VOP, as appropriate.
+;;; We consider both the TN-REF-TN and the TN-REF-LOAD-TN (if any) to
+;;; be referenced simultaneously and in the same way. This causes
+;;; load-TNs to appear live to the beginning (or end) of the VOP, as
+;;; appropriate.
;;;
;;; We return a conflicting TN if there is a conflict.
(defun load-tn-offset-conflicts-in-sb (op sb offset)
(declare (type tn-ref op) (type finite-sb sb) (type index offset))
- (assert (eq (sb-kind sb) :finite))
+ (aver (eq (sb-kind sb) :finite))
(let ((vop (tn-ref-vop op)))
(labels ((tn-overlaps (tn)
(let ((sc (tn-sc tn))
(is-ref (tn-ref-next-ref op) nil))))))
;;; Iterate over all the elements in the SB that would be allocated by
-;;; allocating a TN in SC at Offset, checking for conflict with load-TNs or
-;;; other TNs (live in the LIVE-TNS, which must be set up.) We also return
-;;; true if there aren't enough locations after Offset to hold a TN in SC.
-;;; If Ignore-Live is true, then we ignore the live-TNs, considering only
-;;; references within Op's VOP.
+;;; allocating a TN in SC at Offset, checking for conflict with
+;;; load-TNs or other TNs (live in the LIVE-TNS, which must be set
+;;; up.) We also return true if there aren't enough locations after
+;;; Offset to hold a TN in SC. If Ignore-Live is true, then we ignore
+;;; the live-TNs, considering only references within Op's VOP.
;;;
;;; We return a conflicting TN, or :OVERFLOW if the TN won't fit.
(defun load-tn-conflicts-in-sc (op sc offset ignore-live)
(load-tn-offset-conflicts-in-sb op sb i))))
(when res (return res))))))
-;;; If a load-TN for Op is targeted to a legal location in SC, then return
-;;; the offset, otherwise return NIL. We see whether the target of the
-;;; operand is packed, and try that location. There isn't any need to chain
-;;; down the target path, since everything is packed now.
+;;; If a load-TN for OP is targeted to a legal location in SC, then
+;;; return the offset, otherwise return NIL. We see whether the target
+;;; of the operand is packed, and try that location. There isn't any
+;;; need to chain down the target path, since everything is packed
+;;; now.
;;;
-;;; We require the target to be in SC (and not merely to overlap with SC).
-;;; This prevents SC information from being lost in load TNs (we won't pack a
-;;; load TN in ANY-REG when it is targeted to a DESCRIPTOR-REG.) This
-;;; shouldn't hurt the code as long as all relevant overlapping SCs are allowed
-;;; in the operand SC restriction.
+;;; We require the target to be in SC (and not merely to overlap with
+;;; SC). This prevents SC information from being lost in load TNs (we
+;;; won't pack a load TN in ANY-REG when it is targeted to a
+;;; DESCRIPTOR-REG.) This shouldn't hurt the code as long as all
+;;; relevant overlapping SCs are allowed in the operand SC
+;;; restriction.
(defun find-load-tn-target (op sc)
(declare (inline member))
(let ((target (tn-ref-target op)))
loc
nil)))))
-;;; Select a legal location for a load TN for Op in SC. We just iterate
-;;; over the SC's locations. If we can't find a legal location, return NIL.
+;;; Select a legal location for a load TN for Op in SC. We just
+;;; iterate over the SC's locations. If we can't find a legal
+;;; location, return NIL.
(defun select-load-tn-location (op sc)
(declare (type tn-ref op) (type sc sc))
(defevent unpack-tn "Unpacked a TN to satisfy operand SC restriction.")
-;;; Make TN's location the same as for its save TN (allocating a save TN if
-;;; necessary.) Delete any save/restore code that has been emitted thus far.
-;;; Mark all blocks containing references as needing to be repacked.
+;;; Make TN's location the same as for its save TN (allocating a save
+;;; TN if necessary.) Delete any save/restore code that has been
+;;; emitted thus far. Mark all blocks containing references as needing
+;;; to be repacked.
(defun unpack-tn (tn)
(event unpack-tn)
(let ((stn (or (tn-save-tn tn)
(defevent unpack-fallback "Unpacked some operand TN.")
-;;; Called by Pack-Load-TN where there isn't any location free that we can
-;;; pack into. What we do is move some live TN in one of the specified SCs to
-;;; memory, then mark this block all blocks that reference the TN as needing
-;;; repacking. If we succeed, we throw to UNPACKED-TN. If we fail, we return
-;;; NIL.
+;;; This is called by PACK-LOAD-TN where there isn't any location free
+;;; that we can pack into. What we do is move some live TN in one of
+;;; the specified SCs to memory, then mark this block all blocks that
+;;; reference the TN as needing repacking. If we succeed, we throw to
+;;; UNPACKED-TN. If we fail, we return NIL.
;;;
-;;; We can unpack any live TN that appears in the NORMAL-TNs list (isn't wired
-;;; or restricted.) We prefer to unpack TNs that are not used by the VOP. If
-;;; we can't find any such TN, then we unpack some argument or result
-;;; TN. The only way we can fail is if all locations in SC are used by
-;;; load-TNs or temporaries in VOP.
+;;; We can unpack any live TN that appears in the NORMAL-TNs list
+;;; (isn't wired or restricted.) We prefer to unpack TNs that are not
+;;; used by the VOP. If we can't find any such TN, then we unpack some
+;;; argument or result TN. The only way we can fail is if all
+;;; locations in SC are used by load-TNs or temporaries in VOP.
(defun unpack-for-load-tn (sc op)
(declare (type sc sc) (type tn-ref op))
(let ((sb (sc-sb sc))
nil)
-;;; Try to pack a load TN in the SCs indicated by Load-SCs. If we run out
-;;; of SCs, then we unpack some TN and try again. We return the packed load
-;;; TN.
+;;; Try to pack a load TN in the SCs indicated by Load-SCs. If we run
+;;; out of SCs, then we unpack some TN and try again. We return the
+;;; packed load TN.
;;;
-;;; Note: we allow a Load-TN to be packed in the target location even if that
-;;; location is in a SC not allowed by the primitive type. (The SC must still
-;;; be allowed by the operand restriction.) This makes move VOPs more
-;;; efficient, since we won't do a move from the stack into a non-descriptor
-;;; any-reg though a descriptor argument load-TN. This does give targeting
-;;; some real semantics, making it not a pure advisory to pack. It allows pack
-;;; to do some packing it wouldn't have done before.
+;;; Note: we allow a Load-TN to be packed in the target location even
+;;; if that location is in a SC not allowed by the primitive type.
+;;; (The SC must still be allowed by the operand restriction.) This
+;;; makes move VOPs more efficient, since we won't do a move from the
+;;; stack into a non-descriptor any-reg though a descriptor argument
+;;; load-TN. This does give targeting some real semantics, making it
+;;; not a pure advisory to pack. It allows pack to do some packing it
+;;; wouldn't have done before.
(defun pack-load-tn (load-scs op)
(declare (type sc-vector load-scs) (type tn-ref op))
(let ((vop (tn-ref-vop op)))
(return res))))
(push sc allowed)))))))))
-;;; Scan a list of load-SCs vectors and a list of TN-Refs threaded by
-;;; TN-Ref-Across. When we find a reference whose TN doesn't satisfy the
-;;; restriction, we pack a Load-TN and load the operand into it. If a load-tn
-;;; has already been allocated, we can assume that the restriction is
-;;; satisfied.
+;;; Scan a list of load-SCs vectors and a list of TN-REFS threaded by
+;;; TN-REF-ACROSS. When we find a reference whose TN doesn't satisfy
+;;; the restriction, we pack a Load-TN and load the operand into it.
+;;; If a load-tn has already been allocated, we can assume that the
+;;; restriction is satisfied.
#!-sb-fluid (declaim (inline check-operand-restrictions))
(defun check-operand-restrictions (scs ops)
(declare (list scs) (type (or tn-ref null) ops))
(sc-number
(tn-sc (or load-tn (tn-ref-tn op)))))))
(if load-tn
- (assert (eq load-scs t))
+ (aver (eq load-scs t))
(unless (eq load-scs t)
(setf (tn-ref-load-tn op)
(pack-load-tn (car scs) op))))))))
(sc-number
(tn-sc (or load-tn (tn-ref-tn op)))))))
(if load-tn
- (assert (eq load-scs t))
+ (aver (eq load-scs t))
(unless (eq load-scs t)
(setf (tn-ref-load-tn op)
(pack-load-tn (car scs) op))))))))
(values))
-;;; Scan the VOPs in Block, looking for operands whose SC restrictions
-;;; aren't satisfied. We do the results first, since they are evaluated
-;;; later, and our conflict analysis is a backward scan.
+;;; Scan the VOPs in BLOCK, looking for operands whose SC restrictions
+;;; aren't satisfied. We do the results first, since they are
+;;; evaluated later, and our conflict analysis is a backward scan.
(defun pack-load-tns (block)
(catch 'unpacked-tn
(let ((*live-block* nil)
(vop-args vop))))))
(values))
\f
-;;;; location-selection, targeting & pack interface
-
;;;; targeting
-;;; Link the TN-Refs Read and Write together using the TN-Ref-Target when
-;;; this seems like a good idea. Currently we always do, as this increases the
-;;; success of load-TN targeting.
+;;; Link the TN-REFS READ and WRITE together using the TN-REF-TARGET
+;;; when this seems like a good idea. Currently we always do, as this
+;;; increases the success of load-TN targeting.
(defun target-if-desirable (read write)
(declare (type tn-ref read write))
+ ;; As per the comments at the definition of TN-REF-TARGET, read and
+ ;; write refs are always paired, with TARGET in the read pointing to
+ ;; the write and vice versa.
+ (aver (eq (tn-ref-write-p read)
+ (not (tn-ref-write-p write))))
(setf (tn-ref-target read) write)
(setf (tn-ref-target write) read))
-;;; If TN can be packed into SC so as to honor a preference to Target, then
-;;; return the offset to pack at, otherwise return NIL. Target must be already
-;;; packed. We can honor a preference if:
-;;; -- Target's location is in SC's locations.
-;;; -- The element sizes of the two SCs are the same.
-;;; -- TN doesn't conflict with target's location.
+;;; If TN can be packed into SC so as to honor a preference to TARGET,
+;;; then return the offset to pack at, otherwise return NIL. TARGET
+;;; must be already packed.
(defun check-ok-target (target tn sc)
(declare (type tn target tn) (type sc sc) (inline member))
(let* ((loc (tn-offset target))
(target-sc (tn-sc target))
(target-sb (sc-sb target-sc)))
(declare (type index loc))
+ ;; We can honor a preference if:
+ ;; -- TARGET's location is in SC's locations.
+ ;; -- The element sizes of the two SCs are the same.
+ ;; -- TN doesn't conflict with target's location.
(if (and (eq target-sb (sc-sb sc))
(or (eq (sb-kind target-sb) :unbounded)
(member loc (sc-locations sc)))
loc
nil)))
-;;; Scan along the target path from TN, looking at readers or writers. When
-;;; we find a packed TN, return Check-OK-Target of that TN. If there is no
-;;; target, or if the TN has multiple readers (writers), then we return NIL.
-;;; We also always return NIL after 10 iterations to get around potential
-;;; circularity problems.
-(macrolet ((frob (slot)
- `(let ((count 10)
- (current tn))
- (declare (type index count))
- (loop
- (let ((refs (,slot current)))
- (unless (and (plusp count) refs (not (tn-ref-next refs)))
- (return nil))
- (let ((target (tn-ref-target refs)))
- (unless target (return nil))
- (setq current (tn-ref-tn target))
- (when (tn-offset current)
- (return (check-ok-target current tn sc)))
- (decf count)))))))
- (defun find-ok-target-offset (tn sc)
- (declare (type tn tn) (type sc sc))
- (or (frob tn-reads)
- (frob tn-writes))))
-
+;;; Scan along the target path from TN, looking at readers or writers.
+;;; When we find a packed TN, return CHECK-OK-TARGET of that TN. If
+;;; there is no target, or if the TN has multiple readers (writers),
+;;; then we return NIL. We also always return NIL after 10 iterations
+;;; to get around potential circularity problems.
+;;;
+;;; FIXME: (30 minutes of reverse engineering?) It'd be nice to
+;;; rewrite the header comment here to explain the interface and its
+;;; motivation, and move remarks about implementation details (like
+;;; 10!) inside.
+(defun find-ok-target-offset (tn sc)
+ (declare (type tn tn) (type sc sc))
+ (flet ((frob-slot (slot-fun)
+ (declare (type function slot-fun))
+ (let ((count 10)
+ (current tn))
+ (declare (type index count))
+ (loop
+ (let ((refs (funcall slot-fun current)))
+ (unless (and (plusp count)
+ refs
+ (not (tn-ref-next refs)))
+ (return nil))
+ (let ((target (tn-ref-target refs)))
+ (unless target (return nil))
+ (setq current (tn-ref-tn target))
+ (when (tn-offset current)
+ (return (check-ok-target current tn sc)))
+ (decf count)))))))
+ (declare (inline frob-slot)) ; until DYNAMIC-EXTENT works
+ (or (frob-slot #'tn-reads)
+ (frob-slot #'tn-writes))))
+\f
;;;; location selection
-;;; Select some location for TN in SC, returning the offset if we succeed,
-;;; and NIL if we fail. We start scanning at the Last-Offset in an attempt
-;;; to distribute the TNs across all storage.
+;;; Select some location for TN in SC, returning the offset if we
+;;; succeed, and NIL if we fail. We start scanning at the Last-Offset
+;;; in an attempt to distribute the TNs across all storage.
;;;
-;;; We call Offset-Conflicts-In-SB directly, rather than using Conflicts-In-SC.
-;;; This allows us to more efficient in packing multi-location TNs: we don't
-;;; have to multiply the number of tests by the TN size. This falls out
-;;; natually, since we have to be aware of TN size anyway so that we don't call
-;;; Conflicts-In-SC on a bogus offset.
+;;; We call OFFSET-CONFLICTS-IN-SB directly, rather than using
+;;; CONFLICTS-IN-SC. This allows us to more efficient in packing
+;;; multi-location TNs: we don't have to multiply the number of tests
+;;; by the TN size. This falls out naturally, since we have to be
+;;; aware of TN size anyway so that we don't call CONFLICTS-IN-SC on a
+;;; bogus offset.
;;;
-;;; We give up on finding a location after our current pointer has wrapped
-;;; twice. This will result in testing some locations twice in the case that
-;;; we fail, but is simpler than trying to figure out the soonest failure
-;;; point.
+;;; We give up on finding a location after our current pointer has
+;;; wrapped twice. This will result in testing some locations twice in
+;;; the case that we fail, but is simpler than trying to figure out
+;;; the soonest failure point.
;;;
-;;; We also give up without bothering to wrap if the current size isn't large
-;;; enough to hold a single element of element-size without bothering to wrap.
-;;; If it doesn't fit this iteration, it won't fit next.
+;;; We also give up without bothering to wrap if the current size
+;;; isn't large enough to hold a single element of element-size
+;;; without bothering to wrap. If it doesn't fit this iteration, it
+;;; won't fit next.
;;;
-;;; ### Note that we actually try to pack as many consecutive TNs as possible
-;;; in the same location, since we start scanning at the same offset that the
-;;; last TN was successfully packed in. This is a weakening of the scattering
-;;; hueristic that was put in to prevent restricted VOP temps from hogging all
-;;; of the registers. This way, all of these temps probably end up in one
-;;; register.
+;;; ### Note that we actually try to pack as many consecutive TNs as
+;;; possible in the same location, since we start scanning at the same
+;;; offset that the last TN was successfully packed in. This is a
+;;; weakening of the scattering hueristic that was put in to prevent
+;;; restricted VOP temps from hogging all of the registers. This way,
+;;; all of these temps probably end up in one register.
(defun select-location (tn sc &optional use-reserved-locs)
(declare (type tn tn) (type sc sc) (inline member))
(let* ((sb (sc-sb sc))
(return))))
(incf current-start alignment))))))
-;;; If a save TN, return the saved TN, otherwise return TN. Useful for
-;;; getting the conflicts of a TN that might be a save TN.
+;;; If a save TN, return the saved TN, otherwise return TN. This is
+;;; useful for getting the conflicts of a TN that might be a save TN.
(defun original-tn (tn)
(declare (type tn tn))
(if (member (tn-kind tn) '(:save :save-once :specified-save))
(tn-save-tn tn)
tn))
-
+\f
;;;; pack interface
;;; Attempt to pack TN in all possible SCs, first in the SC chosen by
(when (eq (sb-kind (sc-sb sc)) :unbounded)
(grow-sc sc)
(or (select-location original sc)
- (error "Failed to pack after growing SC?"))))))
+ (error "failed to pack after growing SC?"))))))
(when loc
(add-location-conflicts original sc loc)
(setf (tn-sc tn) sc)
(values))
-;;; Pack a wired TN, checking that the offset is in bounds for the SB, and
-;;; that the TN doesn't conflict with some other TN already packed in that
-;;; location. If the TN is wired to a location beyond the end of a :Unbounded
-;;; SB, then grow the SB enough to hold the TN.
+;;; Pack a wired TN, checking that the offset is in bounds for the SB,
+;;; and that the TN doesn't conflict with some other TN already packed
+;;; in that location. If the TN is wired to a location beyond the end
+;;; of a :UNBOUNDED SB, then grow the SB enough to hold the TN.
;;;
-;;; ### Checking for conflicts is disabled for :SPECIFIED-SAVE TNs. This is
-;;; kind of a hack to make specifying wired stack save locations for local call
-;;; arguments (such as OLD-FP) work, since the caller and callee OLD-FP save
-;;; locations may conflict when the save locations don't really (due to being
-;;; in different frames.)
+;;; ### Checking for conflicts is disabled for :SPECIFIED-SAVE TNs.
+;;; This is kind of a hack to make specifying wired stack save
+;;; locations for local call arguments (such as OLD-FP) work, since
+;;; the caller and callee OLD-FP save locations may conflict when the
+;;; save locations don't really (due to being in different frames.)
(defun pack-wired-tn (tn)
(declare (type tn tn))
(let* ((sc (tn-sc tn))
(error "~S is wired to a location that is out of bounds." tn))
(grow-sc sc end))
- ;; For non-x86 ports the presence of a save-tn associated with a tn is used
- ;; to identify the old-fp and return-pc tns. It depends on the old-fp and
- ;; return-pc being passed in registers.
+ ;; For non-x86 ports the presence of a save-tn associated with a
+ ;; tn is used to identify the old-fp and return-pc tns. It depends
+ ;; on the old-fp and return-pc being passed in registers.
#!-x86
(when (and (not (eq (tn-kind tn) :specified-save))
(conflicts-in-sc original sc offset))
(error "~S is wired to a location that it conflicts with." tn))
- ;; Use the above check, but only print a verbose warning. This can be
- ;; helpful for debugging the x86 port.
+ ;; Use the above check, but only print a verbose warning. This can
+ ;; be helpful for debugging the x86 port.
#+nil
(when (and (not (eq (tn-kind tn) :specified-save))
(conflicts-in-sc original sc offset))
original
(tn-save-tn tn) (tn-kind (tn-save-tn tn))))
- ;; On the x86 ports the old-fp and return-pc are often passed on the stack
- ;; so the above hack for the other ports does not always work. Here the
- ;; old-fp and return-pc tns are identified by being on the stack in their
- ;; standard save locations.
+ ;; On the x86 ports the old-fp and return-pc are often passed on
+ ;; the stack so the above hack for the other ports does not always
+ ;; work. Here the old-fp and return-pc tns are identified by being
+ ;; on the stack in their standard save locations.
#!+x86
(when (and (not (eq (tn-kind tn) :specified-save))
(not (and (string= (sb-name sb) "STACK")
(defevent repack-block "Repacked a block due to TN unpacking.")
(defun pack (component)
- (assert (not *in-pack*))
+ (aver (not *in-pack*))
(let ((*in-pack* t)
- (optimize (policy nil (or (>= speed cspeed) (>= space cspeed))))
+ (optimize (policy *lexenv*
+ (or (>= speed compilation-speed)
+ (>= space compilation-speed))))
(2comp (component-info component)))
(init-sb-vectors component)
(do-ir2-blocks (block component)
(do ((vop (ir2-block-start-vop block) (vop-next vop)))
((null vop))
- (let ((target-fun (vop-info-target-function (vop-info vop))))
+ (let ((target-fun (vop-info-target-fun (vop-info vop))))
(when target-fun
(funcall target-fun vop)))))
(unless (tn-offset tn)
(pack-tn tn t)))
- ;; Assign costs to normal TNs so we know which ones should always be
- ;; packed on the stack.
+ ;; Assign costs to normal TNs so we know which ones should always
+ ;; be packed on the stack.
(when (and optimize *pack-assign-costs*)
(assign-tn-costs component))
;; Pack normal TNs in the order that they appear in the code. This
- ;; should have some tendency to pack important TNs first, since control
- ;; analysis favors the drop-through. This should also help targeting,
- ;; since we will pack the target TN soon after we determine the location
- ;; of the targeting TN.
+ ;; should have some tendency to pack important TNs first, since
+ ;; control analysis favors the drop-through. This should also help
+ ;; targeting, since we will pack the target TN soon after we
+ ;; determine the location of the targeting TN.
(do-ir2-blocks (block component)
(let ((ltns (ir2-block-local-tns block)))
(do ((i (1- (ir2-block-local-tn-count block)) (1- i)))
(unless (or (null tn) (eq tn :more) (tn-offset tn))
(pack-tn tn nil))))))
- ;; Pack any leftover normal TNs. This is to deal with :MORE TNs, which
- ;; could possibly not appear in any local TN map.
+ ;; Pack any leftover normal TNs. This is to deal with :MORE TNs,
+ ;; which could possibly not appear in any local TN map.
(do ((tn (ir2-component-normal-tns 2comp) (tn-next tn)))
((null tn))
(unless (tn-offset tn)
(when *repack-blocks*
(loop
(when (zerop (hash-table-count *repack-blocks*)) (return))
- (maphash #'(lambda (block v)
- (declare (ignore v))
- (remhash block *repack-blocks*)
- (event repack-block)
- (pack-load-tns block))
+ (maphash (lambda (block v)
+ (declare (ignore v))
+ (remhash block *repack-blocks*)
+ (event repack-block)
+ (pack-load-tns block))
*repack-blocks*)))))
(values))