component)))))
(locall-analyze-fun-1 functional)
(when (lambda-p functional)
- (maybe-let-convert functional)))))))
+ (maybe-let-convert functional component)))))))
(values))
(defun locall-analyze-clambdas-until-done (clambdas)
(eq (component-kind (lambda-component fun))
:initial)))))
+;;; ir1opt usually takes care of forwarding let-bound values directly
+;;; to their destination when possible. However, locall analysis
+;;; greatly benefits from that transformation, and is executed in a
+;;; distinct phase from ir1opt. After let-conversion, variables
+;;; bound to functional values are immediately substituted away.
+;;;
+;;; When called from locall, component is non-nil, and the functionals
+;;; are marked for reanalysis when appropriate.
+(defun substitute-let-funargs (call fun component)
+ (declare (type combination call) (type clambda fun)
+ (type (or null component) component))
+ (loop for arg in (combination-args call)
+ and var in (lambda-vars fun)
+ ;; only do that in the absence of assignment
+ when (and arg (null (lambda-var-sets var)))
+ do
+ (binding* ((use (lvar-uses arg))
+ (() (ref-p use) :exit-if-null)
+ (leaf (ref-leaf use))
+ (done-something nil))
+ ;; unlike propagate-let-args, we're only concerned with
+ ;; functionals.
+ (cond ((not (functional-p leaf)))
+ ;; if the types match, we can mutate refs to point to
+ ;; the functional instead of var
+ ((csubtypep (single-value-type (node-derived-type use))
+ (leaf-type var))
+ (let ((use-component (node-component use)))
+ (substitute-leaf-if
+ (lambda (ref)
+ (cond ((eq (node-component ref) use-component)
+ (setf done-something t))
+ (t
+ (aver (lambda-toplevelish-p (lambda-home fun)))
+ nil)))
+ leaf var)))
+ ;; otherwise, we can still play LVAR-level tricks for single
+ ;; destination variables.
+ ((and (singleton-p (leaf-refs var))
+ ;; Don't substitute single-ref variables on high-debug /
+ ;; low speed, to improve the debugging experience.
+ (not (preserve-single-use-debug-var-p call var)))
+ (setf done-something t)
+ (substitute-single-use-lvar arg var)))
+ ;; if we've done something, the functional may now be used in
+ ;; more analysis-friendly manners. Enqueue it if we're in
+ ;; locall.
+ (when (and done-something
+ component
+ (member leaf (component-lambdas component)))
+ (pushnew leaf (component-reanalyze-functionals component)))))
+ (values))
+
;;; This function is called when there is some reason to believe that
;;; CLAMBDA might be converted into a LET. This is done after local
;;; call analysis, and also when a reference is deleted. We return
;;; true if we converted.
-(defun maybe-let-convert (clambda)
- (declare (type clambda clambda))
+;;;
+;;; COMPONENT is non-nil during local call analysis. It is used to
+;;; re-enqueue functionals for reanalysis when they have been forwarded
+;;; directly to destination nodes.
+(defun maybe-let-convert (clambda &optional component)
+ (declare (type clambda clambda)
+ (type (or null component) component))
(unless (or (declarations-suppress-let-conversion-p clambda)
(functional-has-external-references-p clambda))
;; We only convert to a LET when the function is a normal local
(let-convert clambda dest))
(reoptimize-call dest)
(setf (functional-kind clambda)
- (if (mv-combination-p dest) :mv-let :let))))
+ (if (mv-combination-p dest) :mv-let :let))
+ (when (combination-p dest) ; mv-combinations are too hairy
+ ; for me to handle - PK 2012-05-30
+ (substitute-let-funargs dest clambda component))))
t))))
\f
;;;; tail local calls and assignments
projects / sbcl.git / commitdiff