(cond
((lookup (lexical-ref-gensym x))
=> (lambda (op)
- (let ((y (or (operand-residual-value op)
- (visit-operand op counter 'value 10 10)
- (operand-source op))))
- (cond
- ((and (lexical-ref? y)
- (= (lexical-refcount (lexical-ref-gensym x)) 1))
- ;; X is a simple alias for Y. Recurse, regardless of
- ;; the number of aliases we were expecting.
- (find-definition y n-aliases))
- ((= (lexical-refcount (lexical-ref-gensym x)) n-aliases)
- ;; We found a definition that is aliased the right
- ;; number of times. We still recurse in case it is a
- ;; lexical.
- (values (find-definition y 1)
- op))
- (else
- ;; We can't account for our aliases.
- (values #f #f))))))
+ (if (var-set? (operand-var op))
+ (values #f #f)
+ (let ((y (or (operand-residual-value op)
+ (visit-operand op counter 'value 10 10)
+ (operand-source op))))
+ (cond
+ ((and (lexical-ref? y)
+ (= (lexical-refcount (lexical-ref-gensym x)) 1))
+ ;; X is a simple alias for Y. Recurse, regardless of
+ ;; the number of aliases we were expecting.
+ (find-definition y n-aliases))
+ ((= (lexical-refcount (lexical-ref-gensym x)) n-aliases)
+ ;; We found a definition that is aliased the right
+ ;; number of times. We still recurse in case it is a
+ ;; lexical.
+ (values (find-definition y 1)
+ op))
+ (else
+ ;; We can't account for our aliases.
+ (values #f #f)))))))
(else
;; A formal parameter. Can't say anything about that.
(values #f #f))))