2007-06-13 07:17:57 -04:00
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;;; CONFORM -- Type checker, written by Jim Miller.
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2007-11-04 12:03:32 -05:00
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(library (rnrs-benchmarks conform)
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2007-06-13 07:17:57 -04:00
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(export main)
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2007-11-04 12:03:32 -05:00
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(import (rnrs)
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(rnrs unicode)
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(rnrs mutable-pairs)
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(rnrs-benchmarks))
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2007-06-13 07:17:57 -04:00
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;;; Functional and unstable
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(define (sort-list obj pred)
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(define (loop l)
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(if (and (pair? l) (pair? (cdr l)))
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(split-list l '() '())
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l))
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(define (split-list l one two)
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(if (pair? l)
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(split-list (cdr l) two (cons (car l) one))
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(merge (loop one) (loop two))))
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(define (merge one two)
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(cond ((null? one) two)
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((pred (car two) (car one))
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(cons (car two)
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(merge (cdr two) one)))
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(else
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(cons (car one)
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(merge (cdr one) two)))))
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(loop obj))
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;; SET OPERATIONS
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; (representation as lists with distinct elements)
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(define (adjoin element set)
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(if (memq element set) set (cons element set)))
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(define (eliminate element set)
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(cond ((null? set) set)
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((eq? element (car set)) (cdr set))
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(else (cons (car set) (eliminate element (cdr set))))))
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(define (intersect list1 list2)
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(let loop ((l list1))
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(cond ((null? l) '())
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((memq (car l) list2) (cons (car l) (loop (cdr l))))
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(else (loop (cdr l))))))
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(define (union list1 list2)
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(if (null? list1)
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list2
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(union (cdr list1)
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(adjoin (car list1) list2))))
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;; GRAPH NODES
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(define make-internal-node vector)
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(define (internal-node-name node) (vector-ref node 0))
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(define (internal-node-green-edges node) (vector-ref node 1))
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(define (internal-node-red-edges node) (vector-ref node 2))
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(define (internal-node-blue-edges node) (vector-ref node 3))
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(define (set-internal-node-name! node name) (vector-set! node 0 name))
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(define (set-internal-node-green-edges! node edges) (vector-set! node 1 edges))
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(define (set-internal-node-red-edges! node edges) (vector-set! node 2 edges))
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(define (set-internal-node-blue-edges! node edges) (vector-set! node 3 edges))
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(define (make-node name . blue-edges) ; User's constructor
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(let ((name (if (symbol? name) (symbol->string name) name))
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(blue-edges (if (null? blue-edges) 'NOT-A-NODE-YET (car blue-edges))))
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(make-internal-node name '() '() blue-edges)))
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(define (copy-node node)
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(make-internal-node (name node) '() '() (blue-edges node)))
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; Selectors
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(define name internal-node-name)
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(define (make-edge-getter selector)
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(lambda (node)
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(if (or (none-node? node) (any-node? node))
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(fatal-error "Can't get edges from the ANY or NONE nodes")
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(selector node))))
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(define red-edges (make-edge-getter internal-node-red-edges))
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(define green-edges (make-edge-getter internal-node-green-edges))
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(define blue-edges (make-edge-getter internal-node-blue-edges))
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; Mutators
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(define (make-edge-setter mutator!)
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(lambda (node value)
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(cond ((any-node? node) (fatal-error "Can't set edges from the ANY node"))
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((none-node? node) 'OK)
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(else (mutator! node value)))))
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(define set-red-edges! (make-edge-setter set-internal-node-red-edges!))
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(define set-green-edges! (make-edge-setter set-internal-node-green-edges!))
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(define set-blue-edges! (make-edge-setter set-internal-node-blue-edges!))
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;; BLUE EDGES
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(define make-blue-edge vector)
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(define (blue-edge-operation edge) (vector-ref edge 0))
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(define (blue-edge-arg-node edge) (vector-ref edge 1))
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(define (blue-edge-res-node edge) (vector-ref edge 2))
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(define (set-blue-edge-operation! edge value) (vector-set! edge 0 value))
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(define (set-blue-edge-arg-node! edge value) (vector-set! edge 1 value))
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(define (set-blue-edge-res-node! edge value) (vector-set! edge 2 value))
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; Selectors
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(define operation blue-edge-operation)
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(define arg-node blue-edge-arg-node)
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(define res-node blue-edge-res-node)
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; Mutators
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(define set-arg-node! set-blue-edge-arg-node!)
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(define set-res-node! set-blue-edge-res-node!)
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; Higher level operations on blue edges
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(define (lookup-op op node)
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(let loop ((edges (blue-edges node)))
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(cond ((null? edges) '())
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((eq? op (operation (car edges))) (car edges))
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(else (loop (cdr edges))))))
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(define (has-op? op node)
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(not (null? (lookup-op op node))))
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;; GRAPHS
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(define make-internal-graph vector)
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(define (internal-graph-nodes graph) (vector-ref graph 0))
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(define (internal-graph-already-met graph) (vector-ref graph 1))
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(define (internal-graph-already-joined graph) (vector-ref graph 2))
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(define (set-internal-graph-nodes! graph nodes) (vector-set! graph 0 nodes))
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; Constructor
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(define (make-graph . nodes)
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(make-internal-graph nodes (make-empty-table) (make-empty-table)))
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; Selectors
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(define graph-nodes internal-graph-nodes)
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(define already-met internal-graph-already-met)
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(define already-joined internal-graph-already-joined)
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; Higher level functions on graphs
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(define (add-graph-nodes! graph nodes)
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(set-internal-graph-nodes! graph (cons nodes (graph-nodes graph))))
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(define (copy-graph g)
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(define (copy-list l) (vector->list (list->vector l)))
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(make-internal-graph
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(copy-list (graph-nodes g))
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(already-met g)
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(already-joined g)))
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(define (clean-graph g)
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(define (clean-node node)
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(if (not (or (any-node? node) (none-node? node)))
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(begin
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(set-green-edges! node '())
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(set-red-edges! node '()))))
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(for-each clean-node (graph-nodes g))
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g)
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(define (canonicalize-graph graph classes)
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(define (fix node)
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(define (fix-set object selector mutator)
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(mutator object
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(map (lambda (node)
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(find-canonical-representative node classes))
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(selector object))))
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(if (not (or (none-node? node) (any-node? node)))
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(begin
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(fix-set node green-edges set-green-edges!)
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(fix-set node red-edges set-red-edges!)
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(for-each
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(lambda (blue-edge)
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(set-arg-node! blue-edge
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(find-canonical-representative (arg-node blue-edge) classes))
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(set-res-node! blue-edge
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(find-canonical-representative (res-node blue-edge) classes)))
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(blue-edges node))))
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node)
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(define (fix-table table)
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(define (canonical? node) (eq? node (find-canonical-representative node classes)))
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(define (filter-and-fix predicate-fn update-fn list)
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(let loop ((list list))
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(cond ((null? list) '())
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((predicate-fn (car list))
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(cons (update-fn (car list)) (loop (cdr list))))
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(else (loop (cdr list))))))
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(define (fix-line line)
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(filter-and-fix
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(lambda (entry) (canonical? (car entry)))
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(lambda (entry) (cons (car entry)
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(find-canonical-representative (cdr entry) classes)))
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line))
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(if (null? table)
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'()
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(cons (car table)
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(filter-and-fix
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(lambda (entry) (canonical? (car entry)))
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(lambda (entry) (cons (car entry) (fix-line (cdr entry))))
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(cdr table)))))
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(make-internal-graph
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(map (lambda (class) (fix (car class))) classes)
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(fix-table (already-met graph))
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(fix-table (already-joined graph))))
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;; USEFUL NODES
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(define none-node (make-node 'none #t))
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(define (none-node? node) (eq? node none-node))
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(define any-node (make-node 'any '()))
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(define (any-node? node) (eq? node any-node))
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;; COLORED EDGE TESTS
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(define (green-edge? from-node to-node)
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(cond ((any-node? from-node) #f)
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((none-node? from-node) #t)
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((memq to-node (green-edges from-node)) #t)
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(else #f)))
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(define (red-edge? from-node to-node)
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(cond ((any-node? from-node) #f)
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((none-node? from-node) #t)
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((memq to-node (red-edges from-node)) #t)
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(else #f)))
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;; SIGNATURE
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; Return signature (i.e. <arg, res>) given an operation and a node
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(define sig
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(let ((none-comma-any (cons none-node any-node)))
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(lambda (op node) ; Returns (arg, res)
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(let ((the-edge (lookup-op op node)))
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(if (not (null? the-edge))
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(cons (arg-node the-edge) (res-node the-edge))
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none-comma-any)))))
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; Selectors from signature
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(define (arg pair) (car pair))
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(define (res pair) (cdr pair))
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;; CONFORMITY
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(define (conforms? t1 t2)
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(define nodes-with-red-edges-out '())
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(define (add-red-edge! from-node to-node)
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(set-red-edges! from-node (adjoin to-node (red-edges from-node)))
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(set! nodes-with-red-edges-out
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(adjoin from-node nodes-with-red-edges-out)))
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(define (greenify-red-edges! from-node)
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(set-green-edges! from-node
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(append (red-edges from-node) (green-edges from-node)))
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(set-red-edges! from-node '()))
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(define (delete-red-edges! from-node)
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(set-red-edges! from-node '()))
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(define (does-conform t1 t2)
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(cond ((or (none-node? t1) (any-node? t2)) #t)
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((or (any-node? t1) (none-node? t2)) #f)
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((green-edge? t1 t2) #t)
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((red-edge? t1 t2) #t)
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(else
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(add-red-edge! t1 t2)
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(let loop ((blues (blue-edges t2)))
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(if (null? blues)
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#t
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(let* ((current-edge (car blues))
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(phi (operation current-edge)))
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(and (has-op? phi t1)
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(does-conform
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(res (sig phi t1))
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(res (sig phi t2)))
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(does-conform
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(arg (sig phi t2))
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(arg (sig phi t1)))
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(loop (cdr blues)))))))))
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(let ((result (does-conform t1 t2)))
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(for-each (if result greenify-red-edges! delete-red-edges!)
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nodes-with-red-edges-out)
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result))
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(define (equivalent? a b)
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(and (conforms? a b) (conforms? b a)))
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;; EQUIVALENCE CLASSIFICATION
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; Given a list of nodes, return a list of equivalence classes
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(define (classify nodes)
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(let node-loop ((classes '())
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(nodes nodes))
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(if (null? nodes)
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(map (lambda (class)
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(sort-list class
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(lambda (node1 node2)
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(< (string-length (name node1))
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(string-length (name node2))))))
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classes)
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(let ((this-node (car nodes)))
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(define (add-node classes)
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(cond ((null? classes) (list (list this-node)))
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((equivalent? this-node (caar classes))
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(cons (cons this-node (car classes))
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(cdr classes)))
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(else (cons (car classes)
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(add-node (cdr classes))))))
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(node-loop (add-node classes)
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(cdr nodes))))))
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; Given a node N and a classified set of nodes,
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; find the canonical member corresponding to N
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(define (find-canonical-representative element classification)
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(let loop ((classes classification))
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(cond ((null? classes) (fatal-error "Can't classify" element))
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((memq element (car classes)) (car (car classes)))
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(else (loop (cdr classes))))))
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; Reduce a graph by taking only one member of each equivalence
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; class and canonicalizing all outbound pointers
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(define (reduce graph)
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(let ((classes (classify (graph-nodes graph))))
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(canonicalize-graph graph classes)))
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;; TWO DIMENSIONAL TABLES
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(define (make-empty-table) (list 'TABLE))
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(define (lookup table x y)
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(let ((one (assq x (cdr table))))
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(if one
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(let ((two (assq y (cdr one))))
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(if two (cdr two) #f))
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#f)))
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(define (insert! table x y value)
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(define (make-singleton-table x y)
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(list (cons x y)))
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(let ((one (assq x (cdr table))))
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(if one
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(set-cdr! one (cons (cons y value) (cdr one)))
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(set-cdr! table (cons (cons x (make-singleton-table y value))
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(cdr table))))))
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;; MEET/JOIN
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; These update the graph when computing the node for node1*node2
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(define (blue-edge-operate arg-fn res-fn graph op sig1 sig2)
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(make-blue-edge op
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(arg-fn graph (arg sig1) (arg sig2))
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(res-fn graph (res sig1) (res sig2))))
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(define (meet graph node1 node2)
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(cond ((eq? node1 node2) node1)
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((or (any-node? node1) (any-node? node2)) any-node) ; canonicalize
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((none-node? node1) node2)
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((none-node? node2) node1)
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((lookup (already-met graph) node1 node2)) ; return it if found
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((conforms? node1 node2) node2)
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((conforms? node2 node1) node1)
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(else
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(let ((result
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(make-node (string-append "(" (name node1) " ^ " (name node2) ")"))))
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(add-graph-nodes! graph result)
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(insert! (already-met graph) node1 node2 result)
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(set-blue-edges! result
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(map
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(lambda (op)
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(blue-edge-operate join meet graph op (sig op node1) (sig op node2)))
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(intersect (map operation (blue-edges node1))
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(map operation (blue-edges node2)))))
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result))))
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(define (join graph node1 node2)
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(cond ((eq? node1 node2) node1)
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((any-node? node1) node2)
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((any-node? node2) node1)
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((or (none-node? node1) (none-node? node2)) none-node) ; canonicalize
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((lookup (already-joined graph) node1 node2)) ; return it if found
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((conforms? node1 node2) node1)
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((conforms? node2 node1) node2)
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(else
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(let ((result
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(make-node (string-append "(" (name node1) " v " (name node2) ")"))))
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(add-graph-nodes! graph result)
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(insert! (already-joined graph) node1 node2 result)
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(set-blue-edges! result
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(map
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(lambda (op)
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(blue-edge-operate meet join graph op (sig op node1) (sig op node2)))
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(union (map operation (blue-edges node1))
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(map operation (blue-edges node2)))))
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result))))
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;; MAKE A LATTICE FROM A GRAPH
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(define (make-lattice g print?)
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(define (step g)
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(let* ((copy (copy-graph g))
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(nodes (graph-nodes copy)))
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(for-each (lambda (first)
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(for-each (lambda (second)
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(meet copy first second) (join copy first second))
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nodes))
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nodes)
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copy))
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(define (loop g count)
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(if print? (display count))
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(let ((lattice (step g)))
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(if print? (begin (display " -> ") (display (length (graph-nodes lattice)))))
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(let* ((new-g (reduce lattice))
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(new-count (length (graph-nodes new-g))))
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(if (= new-count count)
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(begin
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(if print? (newline))
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new-g)
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(begin
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(if print? (begin (display " -> ") (display new-count) (newline)))
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(loop new-g new-count))))))
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(let ((graph
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(apply make-graph
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(adjoin any-node (adjoin none-node (graph-nodes (clean-graph g)))))))
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(loop graph (length (graph-nodes graph)))))
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;; DEBUG and TEST
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(define a '())
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(define b '())
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(define c '())
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(define d '())
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(define (setup)
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(set! a (make-node 'a))
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(set! b (make-node 'b))
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(set-blue-edges! a (list (make-blue-edge 'phi any-node b)))
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(set-blue-edges! b (list (make-blue-edge 'phi any-node a)
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(make-blue-edge 'theta any-node b)))
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(set! c (make-node "c"))
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(set! d (make-node "d"))
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(set-blue-edges! c (list (make-blue-edge 'theta any-node b)))
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(set-blue-edges! d (list (make-blue-edge 'phi any-node c)
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(make-blue-edge 'theta any-node d)))
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'(made a b c d))
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(define (test)
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(setup)
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(map name
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(graph-nodes (make-lattice (make-graph a b c d any-node none-node) #f))))
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(define (main . args)
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(run-benchmark
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"conform"
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conform-iters
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(lambda (result)
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(equal? (map (lambda (s)
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(list->string (map char-downcase (string->list s))))
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result)
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'("(((b v d) ^ a) v c)"
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"(c ^ d)"
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"(b v (a ^ d))"
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"((a v d) ^ b)"
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"(b v d)"
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"(b ^ (a v c))"
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"(a v (c ^ d))"
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"((b v d) ^ a)"
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"(c v (a v d))"
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"(a v c)"
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"(d v (b ^ (a v c)))"
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"(d ^ (a v c))"
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"((a ^ d) v c)"
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"((a ^ b) v d)"
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"(((a v d) ^ b) v (a ^ d))"
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"(b ^ d)"
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"(b v (a v d))"
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"(a ^ c)"
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"(b ^ (c v d))"
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"(a ^ b)"
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"(a v b)"
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"((a ^ d) ^ b)"
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"(a ^ d)"
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"(a v d)"
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"d"
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"(c v d)"
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"a"
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"b"
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"c"
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"any"
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"none")))
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(lambda () (lambda () (test))))))
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