177 lines
5.9 KiB
Scheme
177 lines
5.9 KiB
Scheme
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; Copyright (c) 1993-1999 by Richard Kelsey. See file COPYING.
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; Finding where to put phi-functions.
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;
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; First call:
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; (GRAPH->SSA-GRAPH! <root-node> <node-successors> <node-temp> <set-node-temp!>)
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;
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; Then:
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; (FIND-JOINS <nodes> <node-temp>)
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; will return the list of nodes N for which there are (at least) two paths
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; ... N_0 M_0 ... M_i N and ... N_1 P_0 ... P_j N such that N_0 and N_1
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; are distinct members of <nodes> and the M's and P's are disjoint sets.
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;
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; Algorithm from:
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; Efficiently computing static single assignment form and the control
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; dependence graph,
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; Ron Cytron, Jeanne Ferrante, Barry K. Rosen, Mark N. Wegman, and
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; F. Kenneth Zadeck,
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; ACM Transactions on Programming Languages and Systems 1991 13(4)
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; pages 451-490
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(define-record-type node :node
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(really-make-node data use-uid predecessors dominator dominated
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seen-mark join-mark)
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node?
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(data node-data) ; user's stuff
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(use-uid node-use-uid) ; distinguishes between different invocations
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(successors node-successors ; parents
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set-node-successors!)
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(predecessors node-predecessors ; and children in the graph
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set-node-predecessors!)
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(dominator node-dominator ; parent ;; initialize for goofy dominator code
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set-node-dominator!)
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(dominated node-dominated ; and children in the dominator tree
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set-node-dominated!)
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(frontier node-frontier ; dominator frontier
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set-node-frontier!)
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(seen-mark node-seen-mark ; two markers used in
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set-node-seen-mark!)
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(join-mark node-join-mark ; the ssa algorithm
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set-node-join-mark!))
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(define (make-node data use-uid)
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(really-make-node data
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use-uid
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'() ; predecessors
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#f ; dominator
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'() ; dominated
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-1 ; see-mark
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-1)) ; join-mark
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(define (graph->ssa-graph! root successors temp set-temp!)
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(let ((graph (real-graph->ssa-graph root successors temp set-temp!)))
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(find-dominators! (car graph)
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node-successors node-predecessors
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node-dominator set-node-dominator!)
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(for-each (lambda (node)
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(let ((dom (node-dominator node)))
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(set-node-dominated! dom (cons node (node-dominated dom)))))
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(cdr graph)) ; root has no dominator
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(find-frontiers! (car graph))
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(values)))
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; Turn the user's graph into a NODE graph.
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(define (real-graph->ssa-graph root successors temp set-temp!)
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(let ((uid (next-uid))
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(nodes '()))
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(let recur ((data root))
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(let ((node (temp data)))
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(if (and (node? node)
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(= uid (node-use-uid node)))
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node
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(let ((node (make-node data uid)))
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(set! nodes (cons node nodes))
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(set-temp! data node)
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(let ((succs (map recur (successors data))))
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(for-each (lambda (succ)
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(set-node-predecessors! succ
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(cons node (node-predecessors succ))))
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succs)
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(set-node-successors! node succs))
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node))))
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(reverse! nodes))) ; root ends up at front
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; Find the dominance frontiers of the nodes in a graph.
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(define (find-frontiers! node)
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(let ((frontier (let loop ((succs (node-successors node)) (frontier '()))
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(if (null? succs)
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frontier
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(loop (cdr succs)
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(if (eq? node (node-dominator (car succs)))
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frontier
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(cons (car succs) frontier)))))))
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(let loop ((kids (node-dominated node)) (frontier frontier))
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(cond ((null? kids)
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(set-node-frontier! node frontier)
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frontier)
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(else
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(let kid-loop ((kid-frontier (find-frontiers! (car kids)))
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(frontier frontier))
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(if (null? kid-frontier)
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(loop (cdr kids) frontier)
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(kid-loop (cdr kid-frontier)
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(if (eq? node (node-dominator (car kid-frontier)))
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frontier
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(cons (car kid-frontier) frontier))))))))))
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(define (find-joins nodes temp)
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(map node-data (really-find-joins (map temp nodes))))
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(define (really-find-joins nodes)
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(let ((marker (next-uid)))
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(for-each (lambda (n)
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(set-node-seen-mark! n marker))
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nodes)
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(let loop ((to-do nodes) (joins '()))
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(if (null? to-do)
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joins
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(let frontier-loop ((frontier (node-frontier (car to-do)))
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(to-do (cdr to-do))
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(joins joins))
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(cond ((null? frontier)
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(loop to-do joins))
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((eq? marker (node-join-mark (car frontier)))
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(frontier-loop (cdr frontier) to-do joins))
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(else
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(let ((node (car frontier)))
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(set-node-join-mark! node marker)
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(frontier-loop (cdr frontier)
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(if (eq? marker (node-seen-mark node))
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to-do
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(begin
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(set-node-seen-mark! node marker)
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(cons node to-do)))
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(cons node joins))))))))))
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; Integers as UID's
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(define *next-uid* 0)
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(define (next-uid)
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(let ((uid *next-uid*))
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(set! *next-uid* (+ uid 1))
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uid))
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;----------------------------------------------------------------
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; Testing
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;(define-record-type data
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; (name)
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; (kids
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; temp))
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;
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;(define-record-discloser type/data
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; (lambda (data)
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; (list 'data (data-name data))))
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;
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;(define (make-test-graph spec)
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; (let ((vertices (map (lambda (d)
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; (data-maker (car d)))
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; spec)))
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; (for-each (lambda (data vertex)
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; (set-data-kids! vertex (map (lambda (s)
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; (first (lambda (v)
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; (eq? s (data-name v)))
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; vertices))
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; (cdr data))))
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; spec
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; vertices)
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; vertices))
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;(define g1 (make-test-graph '((a b) (b c d) (c b e) (d d e) (e))))
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;(graph->ssa-graph (car g1) data-kids data-temp set-data-temp!)
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;(find-joins (list (list-ref g1 0)) data-temp)
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