X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcompiler%2Flocall.lisp;h=b6d52c2e9c986bd2ea210a725c387429d2609ff9;hb=edb7acf8d242c0398ec33924e21c85dc54bc768d;hp=d6235cd0186182dc0736b144087fceb1c130e981;hpb=f2f24807c969eeab86a4daa7f1fc611e7bd27594;p=sbcl.git diff --git a/src/compiler/locall.lisp b/src/compiler/locall.lisp index d6235cd..b6d52c2 100644 --- a/src/compiler/locall.lisp +++ b/src/compiler/locall.lisp @@ -43,66 +43,30 @@ (setf (car args) nil))) (values)) -(defun handle-nested-dynamic-extent-lvars (lvar) - (let ((uses (lvar-uses lvar))) - ;; Stack analysis wants DX value generators to end their - ;; blocks. Uses of mupltiple used LVARs already end their blocks, - ;; so we just need to process used-once LVARs. - (when (node-p uses) - (node-ends-block uses)) - ;; If this LVAR's USE is good for DX, it is either a CAST, or it - ;; must be a regular combination whose arguments are potentially DX as well. - (flet ((recurse (use) - (etypecase use - (cast - (handle-nested-dynamic-extent-lvars (cast-value use))) - (combination - (loop for arg in (combination-args use) - when (lvar-good-for-dx-p arg) - append (handle-nested-dynamic-extent-lvars arg)))))) - (cons lvar - (if (listp uses) - (loop for use in uses - when (use-good-for-dx-p use) - nconc (recurse use)) - (when (use-good-for-dx-p uses) - (recurse uses))))))) - (defun recognize-dynamic-extent-lvars (call fun) (declare (type combination call) (type clambda fun)) (loop for arg in (basic-combination-args call) - and var in (lambda-vars fun) - when (and arg (lambda-var-dynamic-extent var) - (not (lvar-dynamic-extent arg))) - append (handle-nested-dynamic-extent-lvars arg) into dx-lvars + for var in (lambda-vars fun) + for dx = (leaf-dynamic-extent var) + when (and dx arg (not (lvar-dynamic-extent arg))) + append (handle-nested-dynamic-extent-lvars dx arg) into dx-lvars finally (when dx-lvars - ;; A call to non-LET with DX args must end its block, - ;; otherwise stack analysis will not see the combination and - ;; the associated cleanup/entry. - (unless (eq :let (functional-kind fun)) - (node-ends-block call)) - (binding* ((before-ctran (node-prev call)) - (nil (ensure-block-start before-ctran)) - (block (ctran-block before-ctran)) - (new-call-ctran (make-ctran :kind :inside-block - :next call - :block block)) - (entry (with-ir1-environment-from-node call - (make-entry :prev before-ctran - :next new-call-ctran))) - (cleanup (make-cleanup :kind :dynamic-extent - :mess-up entry - :info dx-lvars))) - (setf (node-prev call) new-call-ctran) - (setf (ctran-next before-ctran) entry) - (setf (ctran-use new-call-ctran) entry) + ;; Stack analysis requires that the CALL ends the block, so + ;; that MAP-BLOCK-NLXES sees the cleanup we insert here. + (node-ends-block call) + (let* ((entry (with-ir1-environment-from-node call + (make-entry))) + (cleanup (make-cleanup :kind :dynamic-extent + :mess-up entry + :info dx-lvars))) (setf (entry-cleanup entry) cleanup) + (insert-node-before call entry) (setf (node-lexenv call) (make-lexenv :default (node-lexenv call) :cleanup cleanup)) (push entry (lambda-entries (node-home-lambda entry))) - (dolist (lvar dx-lvars) - (setf (lvar-dynamic-extent lvar) cleanup))))) + (dolist (cell dx-lvars) + (setf (lvar-dynamic-extent (cdr cell)) cleanup))))) (values)) ;;; This function handles merging the tail sets if CALL is potentially @@ -216,9 +180,6 @@ do (entries `((eql ,n-supplied ,n) (%funcall ,(force ep) ,@(subseq temps 0 n))))) `(lambda (,n-supplied ,@temps) - ;; FIXME: Make sure that INDEX type distinguishes between - ;; target and host. (Probably just make the SB!XC:DEFTYPE - ;; different from CL:DEFTYPE.) (declare (type index ,n-supplied)) (cond ,@(if more (butlast (entries)) (entries)) @@ -226,8 +187,7 @@ ;; KLUDGE: (NOT (< ...)) instead of >= avoids one round of ;; deftransforms and lambda-conversion. `((,(if (zerop min) t `(not (< ,n-supplied ,max))) - ,(let ((n-context (gensym)) - (n-count (gensym))) + ,(with-unique-names (n-context n-count) `(multiple-value-bind (,n-context ,n-count) (%more-arg-context ,n-supplied ,max) (locally @@ -249,24 +209,29 @@ (declare (type functional fun)) (aver (null (functional-entry-fun fun))) (with-ir1-environment-from-node (lambda-bind (main-entry fun)) - (let ((res (ir1-convert-lambda (make-xep-lambda-expression fun) + (let ((xep (ir1-convert-lambda (make-xep-lambda-expression fun) :debug-name (debug-name - 'xep (leaf-debug-name fun))))) - (setf (functional-kind res) :external - (leaf-ever-used res) t - (functional-entry-fun res) fun - (functional-entry-fun fun) res + 'xep (leaf-debug-name fun)) + :system-lambda t))) + (setf (functional-kind xep) :external + (leaf-ever-used xep) t + (functional-entry-fun xep) fun + (functional-entry-fun fun) xep (component-reanalyze *current-component*) t) (reoptimize-component *current-component* :maybe) - (etypecase fun - (clambda - (locall-analyze-fun-1 fun)) - (optional-dispatch - (dolist (ep (optional-dispatch-entry-points fun)) - (locall-analyze-fun-1 (force ep))) - (when (optional-dispatch-more-entry fun) - (locall-analyze-fun-1 (optional-dispatch-more-entry fun))))) - res))) + (locall-analyze-xep-entry-point fun) + xep))) + +(defun locall-analyze-xep-entry-point (fun) + (declare (type functional fun)) + (etypecase fun + (clambda + (locall-analyze-fun-1 fun)) + (optional-dispatch + (dolist (ep (optional-dispatch-entry-points fun)) + (locall-analyze-fun-1 (force ep))) + (when (optional-dispatch-more-entry fun) + (locall-analyze-fun-1 (optional-dispatch-more-entry fun)))))) ;;; Notice a REF that is not in a local-call context. If the REF is ;;; already to an XEP, then do nothing, otherwise change it to the @@ -511,13 +476,13 @@ (declare (type ref ref) (type mv-combination call) (type functional fun)) (when (and (looks-like-an-mv-bind fun) (singleton-p (leaf-refs fun)) - (singleton-p (basic-combination-args call))) + (singleton-p (basic-combination-args call)) + (not (functional-entry-fun fun))) (let* ((*current-component* (node-component ref)) (ep (optional-dispatch-entry-point-fun fun (optional-dispatch-max-args fun)))) (when (null (leaf-refs ep)) (aver (= (optional-dispatch-min-args fun) 0)) - (aver (not (functional-entry-fun fun))) (setf (basic-combination-kind call) :local) (sset-adjoin ep (lambda-calls-or-closes (node-home-lambda call))) (merge-tail-sets call ep) @@ -595,18 +560,20 @@ ;;; function that rearranges the arguments and calls the entry point. ;;; We analyze the new function and the entry point immediately so ;;; that everything gets converted during the single pass. -(defun convert-hairy-fun-entry (ref call entry vars ignores args) +(defun convert-hairy-fun-entry (ref call entry vars ignores args indef) (declare (list vars ignores args) (type ref ref) (type combination call) (type clambda entry)) (let ((new-fun (with-ir1-environment-from-node call (ir1-convert-lambda `(lambda ,vars - (declare (ignorable ,@ignores)) + (declare (ignorable ,@ignores) + (indefinite-extent ,@indef)) (%funcall ,entry ,@args)) :debug-name (debug-name 'hairy-function-entry (lvar-fun-debug-name - (basic-combination-fun call))))))) + (basic-combination-fun call))) + :system-lambda t)))) (convert-call ref call new-fun) (dolist (ref (leaf-refs entry)) (convert-call-if-possible ref (lvar-dest (node-lvar ref)))))) @@ -732,7 +699,8 @@ (convert-hairy-fun-entry ref call (optional-dispatch-main-entry fun) (append temps more-temps) - (ignores) (call-args))))) + (ignores) (call-args) + more-temps)))) (values)) @@ -866,6 +834,8 @@ (setf (lambda-physenv clambda) home-physenv) (when physenv + (unless home-physenv + (setf home-physenv (get-lambda-physenv home))) (setf (physenv-nlx-info home-physenv) (nconc (physenv-nlx-info physenv) (physenv-nlx-info home-physenv))))