2007-06-13 07:17:57 -04:00
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;
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; GCOld.sch x.x 00/08/03
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; translated from GCOld.java 2.0a 00/08/23
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;
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; Copyright 2000 Sun Microsystems, Inc. All rights reserved.
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;
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;
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; Should be good enough for this benchmark.
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2007-11-04 12:03:32 -05:00
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(library (rnrs-benchmarks gcold)
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2007-06-13 07:17:57 -04:00
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(export main)
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2007-12-25 05:03:41 -05:00
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(import (rnrs) (rnrs r5rs) (rnrs-benchmarks))
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2007-06-13 07:17:57 -04:00
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(define (newRandom)
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(letrec ((random14
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(lambda (n)
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(set! x (remainder (+ (* a x) c) m))
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(remainder (quotient x 8) n)))
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(a 701)
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(x 1)
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(c 743483)
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(m 524288)
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(loop
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(lambda (q r n)
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(if (zero? q)
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(remainder r n)
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(loop (quotient q 16384)
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(+ (* 16384 r) (random14 16384))
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n)))))
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(lambda (n)
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(if (and (exact? n) (integer? n) (< n 16384))
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(random14 n)
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(loop n (random14 16384) n)))))
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; A TreeNode is a record with three fields: left, right, val.
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; The left and right fields contain a TreeNode or 0, and the
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; val field will contain the integer height of the tree.
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(define-syntax newTreeNode
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(syntax-rules ()
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((newTreeNode left right val)
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(vector left right val))
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((newTreeNode)
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(vector 0 0 0))))
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(define-syntax TreeNode.left
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(syntax-rules ()
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((TreeNode.left node)
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(vector-ref node 0))))
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(define-syntax TreeNode.right
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(syntax-rules ()
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((TreeNode.right node)
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(vector-ref node 1))))
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(define-syntax TreeNode.val
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(syntax-rules ()
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((TreeNode.val node)
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(vector-ref node 2))))
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(define-syntax setf
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(syntax-rules (TreeNode.left TreeNode.right TreeNode.val)
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((setf (TreeNode.left node) x)
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(vector-set! node 0 x))
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((setf (TreeNode.right node) x)
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(vector-set! node 1 x))
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((setf (TreeNode.val node) x)
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(vector-set! node 2 x))))
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; Args:
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; live-data-size: in megabytes.
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; work: units of mutator non-allocation work per byte allocated,
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; (in unspecified units. This will affect the promotion rate
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; printed at the end of the run: more mutator work per step implies
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; fewer steps per second implies fewer bytes promoted per second.)
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; short/long ratio: ratio of short-lived bytes allocated to long-lived
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; bytes allocated.
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; pointer mutation rate: number of pointer mutations per step.
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; steps: number of steps to do.
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;
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(define (GCOld size workUnits promoteRate ptrMutRate steps)
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(define (println . args)
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(for-each display args)
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(newline))
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; Rounds an inexact real to two decimal places.
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(define (round2 x)
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(/ (round (* 100.0 x)) 100.0))
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; Returns the height of the given tree.
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(define (height t)
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(if (eqv? t 0)
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0
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(+ 1 (max (height (TreeNode.left t))
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(height (TreeNode.right t))))))
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; Returns the length of the shortest path in the given tree.
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(define (shortestPath t)
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(if (eqv? t 0)
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0
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(+ 1 (min (shortestPath (TreeNode.left t))
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(shortestPath (TreeNode.right t))))))
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; Returns the number of nodes in a balanced tree of the given height.
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(define (heightToNodes h)
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(- (expt 2 h) 1))
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; Returns the height of the largest balanced tree
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; that has no more than the given number of nodes.
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(define (nodesToHeight nodes)
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(do ((h 1 (+ h 1))
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(n 1 (+ n n)))
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((> (+ n n -1) nodes)
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(- h 1))))
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(let* (
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; Constants.
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(null 0) ; Java's null
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(pathBits 65536) ; to generate 16 random bits
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(MEG 1000000)
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(INSIGNIFICANT 999) ; this many bytes don't matter
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(bytes/word 4)
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(bytes/node 20) ; bytes per tree node in typical JVM
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(words/dead 100) ; size of young garbage objects
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; Returns the number of bytes in a balanced tree of the given height.
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(heightToBytes
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(lambda (h)
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(* bytes/node (heightToNodes h))))
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; Returns the height of the largest balanced tree
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; that occupies no more than the given number of bytes.
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(bytesToHeight
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(lambda (bytes)
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(nodesToHeight (/ bytes bytes/node))))
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(treeHeight 14)
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(treeSize (heightToBytes treeHeight))
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(msg1 "Usage: java GCOld <size> <work> <ratio> <mutation> <steps>")
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(msg2 " where <size> is the live storage in megabytes")
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(msg3 " <work> is the mutator work per step (arbitrary units)")
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(msg4 " <ratio> is the ratio of short-lived to long-lived allocation")
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(msg5 " <mutation> is the mutations per step")
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(msg6 " <steps> is the number of steps")
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; Counters (and global variables that discourage optimization).
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(youngBytes 0)
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(nodes 0)
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(actuallyMut 0)
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(mutatorSum 0)
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(aexport '#())
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; Global variables.
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(trees '#())
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(where 0)
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(rnd (newRandom))
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)
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; Returns a newly allocated balanced binary tree of height h.
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(define (makeTree h)
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(if (zero? h)
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null
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(let ((res (newTreeNode)))
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(set! nodes (+ nodes 1))
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(setf (TreeNode.left res) (makeTree (- h 1)))
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(setf (TreeNode.right res) (makeTree (- h 1)))
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(setf (TreeNode.val res) h)
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res)))
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; Allocates approximately size megabytes of trees and stores
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; them into a global array.
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(define (init)
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; Each tree will be about a megabyte.
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(let ((ntrees (quotient (* size MEG) treeSize)))
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(set! trees (make-vector ntrees null))
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(println "Allocating " ntrees " trees.")
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(println " (" (* ntrees treeSize) " bytes)")
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(do ((i 0 (+ i 1)))
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((>= i ntrees))
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(vector-set! trees i (makeTree treeHeight))
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(doYoungGenAlloc (* promoteRate ntrees treeSize) words/dead))
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(println " (" nodes " nodes)")))
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; Confirms that all trees are balanced and have the correct height.
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(define (checkTrees)
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(let ((ntrees (vector-length trees)))
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(do ((i 0 (+ i 1)))
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((>= i ntrees))
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(let* ((t (vector-ref trees i))
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(h1 (height t))
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(h2 (shortestPath t)))
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(if (or (not (= h1 treeHeight))
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(not (= h2 treeHeight)))
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(println "*****BUG: " h1 " " h2))))))
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; Called only by replaceTree (below) and by itself.
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(define (replaceTreeWork full partial dir)
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(let ((canGoLeft (and (not (eq? (TreeNode.left full) null))
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(> (TreeNode.val (TreeNode.left full))
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(TreeNode.val partial))))
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(canGoRight (and (not (eq? (TreeNode.right full) null))
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(> (TreeNode.val (TreeNode.right full))
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(TreeNode.val partial)))))
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(cond ((and canGoLeft canGoRight)
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(if dir
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(replaceTreeWork (TreeNode.left full)
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partial
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(not dir))
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(replaceTreeWork (TreeNode.right full)
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partial
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(not dir))))
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((and (not canGoLeft) (not canGoRight))
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(if dir
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(setf (TreeNode.left full) partial)
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(setf (TreeNode.right full) partial)))
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((not canGoLeft)
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(setf (TreeNode.left full) partial))
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(else
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(setf (TreeNode.right full) partial)))))
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; Given a balanced tree full and a smaller balanced tree partial,
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; replaces an appropriate subtree of full by partial, taking care
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; to preserve the shape of the full tree.
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(define (replaceTree full partial)
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(let ((dir (zero? (modulo (TreeNode.val partial) 2))))
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(set! actuallyMut (+ actuallyMut 1))
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(replaceTreeWork full partial dir)))
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; Allocates approximately n bytes of long-lived storage,
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; replacing oldest existing long-lived storage.
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(define (oldGenAlloc n)
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(let ((full (quotient n treeSize))
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(partial (modulo n treeSize)))
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;(println "In oldGenAlloc, doing "
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; full
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; " full trees and one partial tree of size "
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; partial)
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(do ((i 0 (+ i 1)))
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((>= i full))
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(vector-set! trees where (makeTree treeHeight))
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(set! where
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(modulo (+ where 1) (vector-length trees))))
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(let loop ((partial partial))
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(if (> partial INSIGNIFICANT)
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(let* ((h (bytesToHeight partial))
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(newTree (makeTree h)))
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(replaceTree (vector-ref trees where) newTree)
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(set! where
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(modulo (+ where 1) (vector-length trees)))
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(loop (- partial (heightToBytes h))))))))
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; Interchanges two randomly selected subtrees (of same size and depth).
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(define (oldGenSwapSubtrees)
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; Randomly pick:
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; * two tree indices
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; * A depth
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; * A path to that depth.
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(let* ((index1 (rnd (vector-length trees)))
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(index2 (rnd (vector-length trees)))
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(depth (rnd treeHeight))
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(path (rnd pathBits))
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(tn1 (vector-ref trees index1))
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(tn2 (vector-ref trees index2)))
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(do ((i 0 (+ i 1)))
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((>= i depth))
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(if (even? path)
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(begin (set! tn1 (TreeNode.left tn1))
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(set! tn2 (TreeNode.left tn2)))
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(begin (set! tn1 (TreeNode.right tn1))
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(set! tn2 (TreeNode.right tn2))))
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(set! path (quotient path 2)))
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(if (even? path)
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(let ((tmp (TreeNode.left tn1)))
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(setf (TreeNode.left tn1) (TreeNode.left tn2))
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(setf (TreeNode.left tn2) tmp))
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(let ((tmp (TreeNode.right tn1)))
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(setf (TreeNode.right tn1) (TreeNode.right tn2))
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(setf (TreeNode.right tn2) tmp)))
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(set! actuallyMut (+ actuallyMut 2))))
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; Update "n" old-generation pointers.
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(define (oldGenMut n)
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(do ((i 0 (+ i 1)))
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((>= i (quotient n 2)))
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(oldGenSwapSubtrees)))
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; Does the amount of mutator work appropriate for n bytes of young-gen
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; garbage allocation.
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(define (doMutWork n)
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(let ((limit (quotient (* workUnits n) 10)))
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(do ((k 0 (+ k 1))
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(sum 0 (+ sum 1)))
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((>= k limit)
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; We don't want dead code elimination to eliminate this loop.
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(set! mutatorSum (+ mutatorSum sum))))))
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; Allocate n bytes of young-gen garbage, in units of "nwords"
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; words.
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(define (doYoungGenAlloc n nwords)
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(let ((nbytes (* nwords bytes/word)))
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(do ((allocated 0 (+ allocated nbytes)))
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((>= allocated n)
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(set! youngBytes (+ youngBytes allocated)))
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(set! aexport (make-vector nwords 0)))))
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; Allocate "n" bytes of young-gen data; and do the
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; corresponding amount of old-gen allocation and pointer
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; mutation.
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; oldGenAlloc may perform some mutations, so this code
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; takes those mutations into account.
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(define (doStep n)
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(let ((mutations actuallyMut))
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(doYoungGenAlloc n words/dead)
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(doMutWork n)
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; Now do old-gen allocation
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(oldGenAlloc (quotient n promoteRate))
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(oldGenMut (max 0 (- (+ mutations ptrMutRate) actuallyMut)))))
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(println size " megabytes")
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(println workUnits " work units per step.")
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(println "promotion ratio is 1:" promoteRate)
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(println "pointer mutation rate is " ptrMutRate)
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(println steps " steps")
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(init)
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(checkTrees)
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(set! youngBytes 0)
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(set! nodes 0)
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(println "Initialization complete...")
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(run-benchmark "GCOld"
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1
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(lambda (result) #t)
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(lambda ()
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(lambda ()
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(do ((step 0 (+ step 1)))
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((>= step steps))
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(doStep MEG)))))
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(checkTrees)
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(println "Allocated " steps " Mb of young gen garbage")
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(println " (actually allocated "
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(round2 (/ youngBytes MEG))
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" megabytes)")
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(println "Promoted " (round2 (/ steps promoteRate)) " Mb")
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(println " (actually promoted "
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(round2 (/ (* nodes bytes/node) MEG))
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" megabytes)")
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(if (not (zero? ptrMutRate))
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(println "Mutated " actuallyMut " pointers"))
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; This output serves mainly to discourage optimization.
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(+ mutatorSum (vector-length aexport))))
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(define (main . args)
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(GCOld 25 0 10 10 gcold-iters)))
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