(let ((head (component-head component)))
(do ()
((dolist (ep (block-succ head) t)
- (unless (block-flag ep)
+ (unless (or (block-flag ep) (block-delete-p ep))
(find-dfo-aux ep head component)
(return nil))))))
(let ((num 0))
(do-blocks-backwards (block component :both)
(if (block-flag block)
(setf (block-number block) (incf num))
- (setf (block-delete-p block) t)))
- (do-blocks (block component)
- (unless (block-flag block)
- (delete-block block))))
+ (delete-block-lazily block)))
+ (clean-component component (component-head component)))
(values))
;;; Move all the code and entry points from OLD to NEW. The code in
(unless (eq old-next old-tail)
(setf (block-next head) old-next)
(setf (block-prev old-next) head)
-
+
(setf (block-prev next) old-last)
(setf (block-next old-last) next))
(defun find-dfo-aux (block head component)
(unless (eq (block-component block) component)
(join-components component (block-component block)))
- (unless (block-flag block)
+ (unless (or (block-flag block) (block-delete-p block))
(setf (block-flag block) t)
(dolist (succ (block-succ block))
(find-dfo-aux succ head component))
+ (when (component-nlx-info-generated-p component)
+ ;; FIXME: We also need (and do) this walk before physenv
+ ;; analysis, but at that time we are probably not very
+ ;; interested in the actual DF order.
+ ;;
+ ;; TODO: It is probable that one of successors have the same (or
+ ;; similar) set of NLXes; try to shorten the walk (but think
+ ;; about a loop, the only exit from which is non-local).
+ (map-block-nlxes (lambda (nlx-info)
+ (let ((nle (nlx-info-target nlx-info)))
+ (find-dfo-aux nle head component)))
+ block))
(remove-from-dfo block)
(add-to-dfo block head))
(values))
(res home))))
(res)))
-;;; If CLAMBDA is not already in COMPONENT, just return that
+;;; If CLAMBDA is already in COMPONENT, just return that
;;; component. Otherwise, move the code for CLAMBDA and all lambdas it
;;; physically depends on (either because of calls or because of
;;; closure relationships) into COMPONENT, or possibly into another
(values (real) (top) (real-top))))
-;; COMPONENTs want strings for names, LEAF-DEBUG-NAMEs mightn't be
-;; strings..
+;;; COMPONENTs want strings for names, LEAF-DEBUG-NAMEs mightn't be
+;;; strings...
(defun component-name-from-functional-debug-name (functional)
(declare (type functional functional))
(let ((leaf-debug-name (leaf-debug-name functional)))
(the simple-string
(if (stringp leaf-debug-name)
leaf-debug-name
- (debug-namify "function ~S" leaf-debug-name)))))
+ (debug-namify "function " leaf-debug-name)))))
;;; Given a list of top level lambdas, return
;;; (VALUES NONTOP-COMPONENTS TOP-COMPONENTS HAIRY-TOP-COMPONENTS).
;; an existing component if we find that there are references
;; between them. Any code that is left in an initial component
;; must be unreachable, so we can delete it. Stray links to the
- ;; initial component tail (due NIL function terminated blocks)
+ ;; initial component tail (due to NIL function terminated blocks)
;; are moved to the appropriate new component tail.
(dolist (toplevel-lambda toplevel-lambdas)
(let* ((old-component (lambda-component toplevel-lambda))
;; in the old LAMBDA into the new one (with LETs implicitly moved
;; by changing their home.)
(do-blocks (block component)
- (do-nodes (node cont block)
+ (do-nodes (node nil block)
(let ((lexenv (node-lexenv node)))
(when (eq (lexenv-lambda lexenv) lambda)
(setf (lexenv-lambda lexenv) result-lambda))))
;; is always a preceding REF NIL node in top level lambdas.
(let ((return (lambda-return lambda)))
(when return
- (let ((return-block (node-block return))
- (result (return-result return)))
- (setf (block-last return-block) (continuation-use result))
- (flush-dest result)
- (delete-continuation result)
- (link-blocks return-block result-return-block))))))
+ (link-blocks (node-block return) result-return-block)
+ (flush-dest (return-result return))
+ (unlink-node return)))))
;;; Given a non-empty list of top level LAMBDAs, smash them into a
;;; top level lambda and component, returning these as values. We use
;; Make sure the result's return node starts a block so that we
;; can splice code in before it.
(let ((prev (node-prev
- (continuation-use
- (return-result result-return)))))
- (when (continuation-use prev)
- (node-ends-block (continuation-use prev)))
- (do-uses (use prev)
- (let ((new (make-continuation)))
- (delete-continuation-use use)
- (add-continuation-use use new))))
+ (lvar-uses (return-result result-return)))))
+ (when (ctran-use prev)
+ (node-ends-block (ctran-use prev))))
(dolist (lambda (rest lambdas))
(merge-1-toplevel-lambda result-lambda lambda)))