(functional-has-external-references-p fun))
(aver (member kind '(:optional :cleanup :escape)))
(setf (functional-kind fun) nil)
- (delete-functional fun)))))
+ (delete-functional fun)))))
(values))
;;; If FUN has no physical environment, assign one, otherwise clean up
;;; the old physical environment, removing/flagging variables that
;;; have no sets or refs. If a var has no references, we remove it
-;;; from the closure. If it has no sets, we clear the INDIRECT flag.
-;;; This is necessary because pre-analysis is done before
-;;; optimization.
+;;; from the closure. We always clear the INDIRECT flag. This is
+;;; necessary because pre-analysis is done before optimization.
(defun reinit-lambda-physenv (fun)
(let ((old (lambda-physenv (lambda-home fun))))
(cond (old
(physenv-closure old)))
(flet ((clear (fun)
(dolist (var (lambda-vars fun))
- (unless (lambda-var-sets var)
- (setf (lambda-var-indirect var) nil)))))
+ (setf (lambda-var-indirect var) nil))))
(clear fun)
(map nil #'clear (lambda-lets fun))))
(t
(let ((set-physenv (get-node-physenv set)))
(unless (eq set-physenv physenv)
- (setf did-something t
+ (setf did-something t
(lambda-var-indirect var) t)
(close-over var set-physenv physenv))))))
did-something))
(declare (type physenv env) (type exit exit))
(let* ((exit-block (node-block exit))
(next-block (first (block-succ exit-block)))
- (cleanup (entry-cleanup (exit-entry exit)))
- (info (make-nlx-info :cleanup cleanup
- :continuation (node-cont exit)))
(entry (exit-entry exit))
+ (cleanup (entry-cleanup entry))
+ (info (make-nlx-info cleanup exit))
(new-block (insert-cleanup-code exit-block next-block
entry
`(%nlx-entry ',info)
- (entry-cleanup entry)))
+ cleanup))
(component (block-component new-block)))
(unlink-blocks exit-block new-block)
(link-blocks exit-block (component-tail component))
;;; the component tail.
;;; -- Close over the NLX-INFO in the exit environment.
;;; -- If the exit is from an :ESCAPE function, then substitute a
-;;; constant reference to NLX-Info structure for the escape
+;;; constant reference to NLX-INFO structure for the escape
;;; function reference. This will cause the escape function to
;;; be deleted (although not removed from the DFO.) The escape
;;; function is no longer needed, and we don't want to emit code
;;; the NLX use.
(defun note-non-local-exit (env exit)
(declare (type physenv env) (type exit exit))
- (let ((entry (exit-entry exit))
- (cont (node-cont exit))
+ (let ((lvar (node-lvar exit))
(exit-fun (node-home-lambda exit)))
- (if (find-nlx-info entry cont)
+ (if (find-nlx-info exit)
(let ((block (node-block exit)))
(aver (= (length (block-succ block)) 1))
(unlink-blocks block (first (block-succ block)))
(link-blocks block (component-tail (block-component block))))
(insert-nlx-entry-stub exit env))
- (let ((info (find-nlx-info entry cont)))
+ (let ((info (find-nlx-info exit)))
(aver info)
(close-over info (node-physenv exit) env)
(when (eq (functional-kind exit-fun) :escape)
(leaf-refs exit-fun))
(substitute-leaf (find-constant info) exit-fun)
(let ((node (block-last (nlx-info-target info))))
- (delete-continuation-use node)
- (add-continuation-use node (nlx-info-continuation info))))))
+ (delete-lvar-use node)
+ (aver (eq lvar (node-lvar exit)))
+ (add-lvar-use node lvar)))))
(values))
;;; Iterate over the EXITs in COMPONENT, calling NOTE-NON-LOCAL-EXIT
(basic-combination-args node))))
(ecase (cleanup-kind cleanup)
(:special-bind
- (code `(%special-unbind ',(continuation-value (first args)))))
+ (code `(%special-unbind ',(lvar-value (first args)))))
(:catch
(code `(%catch-breakup)))
(:unwind-protect
(code `(%unwind-protect-breakup))
- (let ((fun (ref-leaf (continuation-use (second args)))))
+ (let ((fun (ref-leaf (lvar-uses (second args)))))
(reanalyze-funs fun)
(code `(%funcall ,fun))))
((:block :tagbody)
(emit-cleanups block1 block2)))))))
(values))
-;;; Mark optimizable tail-recursive uses of function result continuations with
-;;; the corresponding TAIL-SET.
+;;; Mark optimizable tail-recursive uses of function result
+;;; continuations with the corresponding TAIL-SET.
(defun tail-annotate (component)
(declare (type component component))
(dolist (fun (component-lambdas component))
(when ret
(let ((result (return-result ret)))
(do-uses (use result)
- (when (and (policy use
- (or (> space debug)
- (> speed debug)))
+ (when (and (policy use merge-tail-calls)
+ (basic-combination-p use)
(immediately-used-p result use)
(or (not (eq (node-derived-type use) *empty-type*))
- (not (basic-combination-p use))
(eq (basic-combination-kind use) :local)))
(setf (node-tail-p use) t)))))))
(values))