208 lines
5.6 KiB
Factor
208 lines
5.6 KiB
Factor
! Copyright (C) 2007 Alex Chapman
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! See http://factorcode.org/license.txt for BSD license.
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USING: kernel generic math sequences arrays io namespaces
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prettyprint.private kernel.private assocs random combinators
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parser prettyprint.backend ;
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IN: trees
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MIXIN: tree-mixin
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TUPLE: tree root count ;
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: <tree> ( -- tree )
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f 0 tree construct-boa ;
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: construct-tree ( class -- tree )
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construct-empty <tree> over set-delegate ; inline
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INSTANCE: tree tree-mixin
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INSTANCE: tree-mixin assoc
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TUPLE: node key value left right ;
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: <node> ( key value -- node )
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f f node construct-boa ;
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SYMBOL: current-side
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: left -1 ; inline
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: right 1 ; inline
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: go-left? ( -- ? ) current-side get left = ;
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: inc-count ( tree -- )
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dup tree-count 1+ swap set-tree-count ;
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: dec-count ( tree -- )
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dup tree-count 1- swap set-tree-count ;
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: node-link@ ( node ? -- node )
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go-left? xor [ node-left ] [ node-right ] if ;
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: set-node-link@ ( left parent ? -- )
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go-left? xor [ set-node-left ] [ set-node-right ] if ;
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: node-link ( node -- child ) f node-link@ ;
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: set-node-link ( child node -- ) f set-node-link@ ;
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: node+link ( node -- child ) t node-link@ ;
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: set-node+link ( child node -- ) t set-node-link@ ;
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: with-side ( side quot -- ) [ swap current-side set call ] with-scope ; inline
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: with-other-side ( quot -- ) current-side get neg swap with-side ; inline
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: go-left ( quot -- ) left swap with-side ; inline
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: go-right ( quot -- ) right swap with-side ; inline
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: change-root ( tree quot -- )
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swap [ tree-root swap call ] keep set-tree-root ; inline
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: leaf? ( node -- ? )
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dup node-left swap node-right or not ;
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: key-side ( k1 k2 -- side )
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#! side is -1 if k1 < k2, 0 if they are equal, or 1 if k1 > k2
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<=> sgn ;
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: key< ( k1 k2 -- ? ) <=> 0 < ;
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: key> ( k1 k2 -- ? ) <=> 0 > ;
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: key= ( k1 k2 -- ? ) <=> zero? ;
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: random-side ( -- side ) left right 2array random ;
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: choose-branch ( key node -- key node-left/right )
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2dup node-key key-side [ node-link ] with-side ;
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: node-at* ( key node -- value ? )
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[
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2dup node-key key= [
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nip node-value t
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] [
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choose-branch node-at*
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] if
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] [ drop f f ] if* ;
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M: tree at* ( key tree -- value ? )
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tree-root node-at* ;
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: node-set ( value key node -- node )
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2dup node-key key-side dup zero? [
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drop nip [ set-node-value ] keep
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] [
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[
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[ node-link [ node-set ] [ swap <node> ] if* ] keep
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[ set-node-link ] keep
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] with-side
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] if ;
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M: tree set-at ( value key tree -- )
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[ [ node-set ] [ swap <node> ] if* ] change-root ;
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: valid-node? ( node -- ? )
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[
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dup dup node-left [ node-key swap node-key key< ] when* >r
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dup dup node-right [ node-key swap node-key key> ] when* r> and swap
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dup node-left valid-node? swap node-right valid-node? and and
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] [ t ] if* ;
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: valid-tree? ( tree -- ? ) tree-root valid-node? ;
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: tree-call ( node call -- )
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>r [ node-key ] keep node-value r> call ; inline
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: find-node ( node quot -- key value ? )
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{
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{ [ over not ] [ 2drop f f f ] }
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{ [ [
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>r node-left r> find-node
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] 2keep rot ]
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[ 2drop t ] }
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{ [ >r 2nip r> [ tree-call ] 2keep rot ]
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[ drop [ node-key ] keep node-value t ] }
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{ [ t ] [ >r node-right r> find-node ] }
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} cond ; inline
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M: tree-mixin assoc-find ( tree quot -- key value ? )
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>r tree-root r> find-node ;
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M: tree-mixin clear-assoc
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0 over set-tree-count
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f swap set-tree-root ;
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: copy-node-contents ( new old -- )
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dup node-key pick set-node-key node-value swap set-node-value ;
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! Deletion
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DEFER: delete-node
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: (prune-extremity) ( parent node -- new-extremity )
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dup node-link [
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rot drop (prune-extremity)
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] [
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tuck delete-node swap set-node-link
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] if* ;
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: prune-extremity ( node -- new-extremity )
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#! remove and return the leftmost or rightmost child of this node.
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#! assumes at least one child
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dup node-link (prune-extremity) ;
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: replace-with-child ( node -- node )
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dup dup node-link copy-node-contents dup node-link delete-node over set-node-link ;
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: replace-with-extremity ( node -- node )
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dup node-link dup node+link [
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! predecessor/successor is not the immediate child
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[ prune-extremity ] with-other-side dupd copy-node-contents
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] [
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! node-link is the predecessor/successor
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drop replace-with-child
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] if ;
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: delete-node-with-two-children ( node -- node )
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#! randomised to minimise tree unbalancing
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random-side [ replace-with-extremity ] with-side ;
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: delete-node ( node -- node )
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#! delete this node, returning its replacement
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dup node-left [
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dup node-right [
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delete-node-with-two-children
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] [
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node-left ! left but no right
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] if
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] [
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dup node-right [
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node-right ! right but not left
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] [
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drop f ! no children
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] if
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] if ;
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: delete-bst-node ( key node -- node )
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2dup node-key key-side dup zero? [
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drop nip delete-node
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] [
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[ tuck node-link delete-bst-node over set-node-link ] with-side
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] if ;
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M: tree delete-at
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[ delete-bst-node ] change-root ;
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M: tree new-assoc
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2drop <tree> ;
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M: tree clone dup assoc-clone-like ;
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: >tree ( assoc -- tree )
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T{ tree f f 0 } assoc-clone-like ;
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M: tree-mixin assoc-like drop dup tree? [ >tree ] unless ;
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: TREE{
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\ } [ >tree ] parse-literal ; parsing
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M: tree pprint-delims drop \ TREE{ \ } ;
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M: tree-mixin assoc-size tree-count ;
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M: tree-mixin clone dup assoc-clone-like ;
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M: tree-mixin >pprint-sequence >alist ;
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M: tree-mixin pprint-narrow? drop t ;
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