(setf (functional-kind fun) nil)
(delete-functional fun)))))
+ (setf (component-nlx-info-generated-p component) t)
(values))
;;; This is to be called on a COMPONENT with top level LAMBDAs before
;;; knows what entry is being done.
;;;
;;; The link from the EXIT block to the entry stub is changed to be a
-;;; link to the component head. Similarly, the EXIT block is linked to
-;;; the component tail. This leaves the entry stub reachable, but
+;;; link from the component head. Similarly, the EXIT block is linked
+;;; to the component tail. This leaves the entry stub reachable, but
;;; makes the flow graph less confusing to flow analysis.
;;;
;;; If a CATCH or an UNWIND-protect, then we set the LEXENV for the
;;; 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
-;;; for it. We then also change the %NLX-ENTRY call to use the
-;;; NLX continuation so that there will be a use to represent
-;;; the NLX use.
+;;; for it.
+;;; -- Change the %NLX-ENTRY call to use the NLX lvar so that 1) there
+;;; will be a use to represent the NLX use; 2) make life easier for
+;;; the stack analysis.
(defun note-non-local-exit (env exit)
(declare (type physenv env) (type exit exit))
(let ((lvar (node-lvar exit))
(mapc (lambda (x)
(setf (node-derived-type x) *wild-type*))
(leaf-refs exit-fun))
- (substitute-leaf (find-constant info) exit-fun)
- (let ((node (block-last (nlx-info-target info))))
- (delete-lvar-use node)
- (aver (eq lvar (node-lvar exit)))
- (add-lvar-use node lvar)))))
+ (substitute-leaf (find-constant info) exit-fun))
+ (when lvar
+ (let ((node (block-last (nlx-info-target info))))
+ (unless (node-lvar node)
+ (aver (eq lvar (node-lvar exit)))
+ (setf (node-derived-type node) (lvar-derived-type lvar))
+ (add-lvar-use node lvar))))))
(values))
;;; Iterate over the EXITs in COMPONENT, calling NOTE-NON-LOCAL-EXIT