;;;; files for more information.
(in-package "SB!C")
-
-(file-comment
- "$Header$")
\f
;;; Scan through Block looking for uses of :Unknown continuations that have
;;; their Dest outside of the block. We do some checking to verify the
(not (eq (node-block dest) block))
2cont
(eq (ir2-continuation-kind 2cont) :unknown))
- (assert (or saw-last (not last-pop)))
+ (aver (or saw-last (not last-pop)))
(pushed cont)))))
(setf (ir2-block-pushed 2block) (pushed))))
\f
;;;; annotation graph walk
-;;; Do a backward walk in the flow graph simulating the run-time stack of
-;;; unknown-values continuations and annotating the blocks with the result.
+;;; Do a backward walk in the flow graph simulating the run-time stack
+;;; of unknown-values continuations and annotating the blocks with the
+;;; result.
;;;
-;;; Block is the block that is currently being walked and Stack is the stack
-;;; of unknown-values continuations in effect immediately after block. We
-;;; simulate the stack by popping off the unknown-values generated by this
-;;; block (if any) and pushing the continuations for values received by this
-;;; block. (The role of push and pop are interchanged because we are doing a
-;;; backward walk.)
+;;; BLOCK is the block that is currently being walked and STACK is the
+;;; stack of unknown-values continuations in effect immediately after
+;;; block. We simulate the stack by popping off the unknown-values
+;;; generated by this block (if any) and pushing the continuations for
+;;; values received by this block. (The role of push and pop are
+;;; interchanged because we are doing a backward walk.)
;;;
-;;; If we run into a values generator whose continuation isn't on stack top,
-;;; then the receiver hasn't yet been reached on any walk to this use. In this
-;;; case, we ignore the push for now, counting on Annotate-Dead-Values to clean
-;;; it up if we discover that it isn't reachable at all.
+;;; If we run into a values generator whose continuation isn't on
+;;; stack top, then the receiver hasn't yet been reached on any walk
+;;; to this use. In this case, we ignore the push for now, counting on
+;;; Annotate-Dead-Values to clean it up if we discover that it isn't
+;;; reachable at all.
;;;
-;;; If our final stack isn't empty, then we walk all the predecessor blocks
-;;; that don't have all the continuations that we have on our Start-Stack on
-;;; their End-Stack. This is our termination condition for the graph walk. We
-;;; put the test around the recursive call so that the initial call to this
-;;; function will do something even though there isn't initially anything on
-;;; the stack.
+;;; If our final stack isn't empty, then we walk all the predecessor
+;;; blocks that don't have all the continuations that we have on our
+;;; START-STACK on their END-STACK. This is our termination condition
+;;; for the graph walk. We put the test around the recursive call so
+;;; that the initial call to this function will do something even
+;;; though there isn't initially anything on the stack.
;;;
-;;; We can use the tailp test, since the only time we want to bottom out
-;;; with a non-empty stack is when we intersect with another path from the same
-;;; top-level call to this function that has more values receivers on that
-;;; path. When we bottom out in this way, we are counting on
-;;; DISCARD-UNUSED-VALUES doing its thing.
+;;; We can use the tailp test, since the only time we want to bottom
+;;; out with a non-empty stack is when we intersect with another path
+;;; from the same top level call to this function that has more values
+;;; receivers on that path. When we bottom out in this way, we are
+;;; counting on DISCARD-UNUSED-VALUES doing its thing.
;;;
;;; When we do recurse, we check that predecessor's END-STACK is a
-;;; subsequence of our START-STACK. There may be extra stuff on the top
-;;; of our stack because the last path to the predecessor may have discarded
-;;; some values that we use. There may be extra stuff on the bottom of our
-;;; stack because this walk may be from a values receiver whose lifetime
-;;; encloses that of the previous walk.
+;;; subsequence of our START-STACK. There may be extra stuff on the
+;;; top of our stack because the last path to the predecessor may have
+;;; discarded some values that we use. There may be extra stuff on the
+;;; bottom of our stack because this walk may be from a values
+;;; receiver whose lifetime encloses that of the previous walk.
;;;
-;;; If a predecessor block is the component head, then it must be the case
-;;; that this is a NLX entry stub. If so, we just stop our walk, since the
-;;; stack at the exit point doesn't have anything to do with our stack.
+;;; If a predecessor block is the component head, then it must be the
+;;; case that this is a NLX entry stub. If so, we just stop our walk,
+;;; since the stack at the exit point doesn't have anything to do with
+;;; our stack.
(defun stack-simulation-walk (block stack)
(declare (type cblock block) (list stack))
(let ((2block (block-info block)))
(dolist (push (reverse (ir2-block-pushed 2block)))
(if (eq (car new-stack) push)
(pop new-stack)
- (assert (not (member push new-stack)))))
+ (aver (not (member push new-stack)))))
(dolist (pop (reverse (ir2-block-popped 2block)))
(push pop new-stack))
(when new-stack
(dolist (pred (block-pred block))
(if (eq pred (component-head (block-component block)))
- (assert (find block
- (environment-nlx-info (block-environment block))
- :key #'nlx-info-target))
+ (aver (find block
+ (physenv-nlx-info (block-physenv block))
+ :key #'nlx-info-target))
(let ((pred-stack (ir2-block-end-stack (block-info pred))))
(unless (tailp new-stack pred-stack)
- (assert (search pred-stack new-stack))
+ (aver (search pred-stack new-stack))
(stack-simulation-walk pred new-stack))))))))
(values))
((null pushes))
(let ((push (first pushes)))
(cond ((member push stack)
- (assert (not popping)))
+ (aver (not popping)))
((eq push tailp-cont)
- (assert (null (rest pushes))))
+ (aver (null (rest pushes))))
(t
(push push (ir2-block-end-stack 2block))
(setq popping t))))))
(values))
\f
-;;; Called when we discover that the stack-top unknown-values continuation
-;;; at the end of Block1 is different from that at the start of Block2 (its
-;;; successor.)
+;;; This is called when we discover that the stack-top unknown-values
+;;; continuation at the end of BLOCK1 is different from that at the
+;;; start of BLOCK2 (its successor).
;;;
-;;; We insert a call to a funny function in a new cleanup block introduced
-;;; between Block1 and Block2. Since control analysis and LTN have already
-;;; run, we must do make an IR2 block, then do ADD-TO-EMIT-ORDER and
-;;; LTN-ANALYZE-BLOCK on the new block. The new block is inserted after Block1
-;;; in the emit order.
+;;; We insert a call to a funny function in a new cleanup block
+;;; introduced between BLOCK1 and BLOCK2. Since control analysis and
+;;; LTN have already run, we must do make an IR2 block, then do
+;;; ADD-TO-EMIT-ORDER and LTN-ANALYZE-BELATED-BLOCK on the new block.
+;;; The new block is inserted after BLOCK1 in the emit order.
;;;
-;;; If the control transfer between Block1 and Block2 represents a
-;;; tail-recursive return (:Deleted IR2-continuation) or a non-local exit, then
-;;; the cleanup code will never actually be executed. It doesn't seem to be
-;;; worth the risk of trying to optimize this, since this rarely happens and
-;;; wastes only space.
+;;; If the control transfer between BLOCK1 and BLOCK2 represents a
+;;; tail-recursive return (:DELETED IR2-continuation) or a non-local
+;;; exit, then the cleanup code will never actually be executed. It
+;;; doesn't seem to be worth the risk of trying to optimize this,
+;;; since this rarely happens and wastes only space.
(defun discard-unused-values (block1 block2)
(declare (type cblock block1 block2))
(let* ((block1-stack (ir2-block-end-stack (block-info block1)))
(- (length block1-stack)
(length block2-stack)
1))))
- (assert (tailp block2-stack block1-stack))
+ (aver (tailp block2-stack block1-stack))
(let* ((block (insert-cleanup-code block1 block2
(continuation-next (block-start block2))
(2block (make-ir2-block block)))
(setf (block-info block) 2block)
(add-to-emit-order 2block (block-info block1))
- (ltn-analyze-block block)))
+ (ltn-analyze-belated-block block)))
(values))
\f